期刊论文详细信息
Biology of Sex Differences
Strategies and methods to study sex differences in cardiovascular structure and function: a guide for basic scientists
Virginia M Miller4  Jay R Kaplan7  Nicholas J Schork13  Pamela Ouyang6  Sarah L Berga8  Nanette K Wenger11  Leslee J Shaw10  R Clinton Webb12  Monica Mallampalli2  Meir Steiner1  Doris A Taylor5  C Noel Bairey Merz3  Jane F Reckelhoff9 
[1] St Joseph's Healthcare, Hamilton, Ontario, Canada
[2] Science Department, Society for Women's Health Research, Washington, DC, USA
[3] Women's Heart Center, Cedars-Sinai Heart Institute, Los Angeles, CA, USA
[4] Departments of Surgery, Physiology and Biomedical Engineering, Mayo Clinic, 200 First Street SW, Rochester, MN, 55905, USA
[5] Department of Integrative Biology and Physiology, Center for Cardiovascular Repair, University of Minnesota, Minneapolis, MN, USA
[6] Department of Medicine, Johns Hopkins University, Baltimore, MD, USA
[7] Department of Pathology (Comparative Medicine), Wake Forest School of Medicine, Winston-Salem, NC, USA
[8] Department of Obstetrics and Gynecology, Wake Forest University, Winston-Salem, NC, USA
[9] Women's Health Research Center and Department of Physiology and Biophysics University of Mississippi Medical Center, Jackson, MS, USA
[10] Emory Clinical Cardiovascular Research Institute, Emory University School of Medicine, Atlanta, GA, USA
[11] Department of Medicine, Division of Cardiology, Emory University School of Medicine, Atlanta, GA, USA
[12] Department of Physiology, Georgia Health Sciences University, Augusta, GA, USA
[13] The Scripps Research Institute and The Scripps Translational Science Institute, La Jolla, CA, USA
关键词: testosterone;    study design;    sex steroid hormones;    sex chromosomes;    genomics;    gender;    estrogen;    animal models;   
Others  :  793844
DOI  :  10.1186/2042-6410-2-14
 received in 2011-07-21, accepted in 2011-12-12,  发布年份 2011
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【 摘 要 】

Background

Cardiovascular disease remains the primary cause of death worldwide. In the US, deaths due to cardiovascular disease for women exceed those of men. While cultural and psychosocial factors such as education, economic status, marital status and access to healthcare contribute to sex differences in adverse outcomes, physiological and molecular bases of differences between women and men that contribute to development of cardiovascular disease and response to therapy remain underexplored.

Methods

This article describes concepts, methods and procedures to assist in the design of animal and tissue/cell based studies of sex differences in cardiovascular structure, function and models of disease.

Results

To address knowledge gaps, study designs must incorporate appropriate experimental material including species/strain characteristics, sex and hormonal status. Determining whether a sex difference exists in a trait must take into account the reproductive status and history of the animal including those used for tissue (cell) harvest, such as the presence of gonadal steroids at the time of testing, during development or number of pregnancies. When selecting the type of experimental animal, additional consideration should be given to diet requirements (soy or plant based influencing consumption of phytoestrogen), lifespan, frequency of estrous cycle in females, and ability to investigate developmental or environmental components of disease modulation. Stress imposed by disruption of sleep/wake cycles, patterns of social interaction (or degree of social isolation), or handling may influence adrenal hormones that interact with pathways activated by the sex steroid hormones. Care must be given to selection of hormonal treatment and route of administration.

Conclusions

Accounting for sex in the design and interpretation of studies including pharmacological effects of drugs is essential to increase the foundation of basic knowledge upon which to build translational approaches to prevent, diagnose and treat cardiovascular diseases in humans.

【 授权许可】

   
2011 Miller et al; licensee BioMed Central Ltd.

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【 参考文献 】
  • [1]WRITING GROUP MEMBERS, Lloyd-Jones D, Adams RJ, Brown TM, Carnethon M, Dai S, De Simone G, Ferguson TB, Ford E, Furie K, Gillespie C, Go A, Greenlund K, Haase N, Hailpern S, Ho PM, Howard V, Kissela B, Kittner S, Lackland D, Lisabeth L, Marelli A, McDermott MM, Meigs J, Mozaffarian D, Mussolino M, Nichol G, Roger VL, Rosamond W, Sacco R, et al.: Heart disease and stroke statistics - 2010 update: a report from the American Heart Association. Circulation 2010, 121:948-954.
  • [2]Mosca L, Benjamin EJ, Berra K, Bezanson JL, Dolor RJ, Lloyd-Jones DM, Newby LK, Piña IL, Roger VL, Shaw LJ, Zhao D, Beckie TM, Bushnell C, D'Armiento J, Kris-Etherton PM, Fang J, Ganiats TG, Gomes AS, Gracia CR, Haan CK, Jackson EA, Judelson DR, Kelepouris E, Lavie CJ, Moore A, Nussmeier NA, Ofili E, Oparil S, Ouyang P, Pinn VW, et al.: Effectiveness-Based Guidelines for the Prevention of Cardiovascular Disease in Women--2011 Update: A Guideline From the American Heart Association. Circulation 2011, 123:1243-1262.
  • [3]Gregg EW, Gu Q, Cheng YJ, Naranayan KMV, Cowie CC: Mortality trends in men and women with diabetes, 1971 to 2000. Ann Intern Med 2007, 147:149-155.
  • [4]Reckelhoff JF, Fortepiani LA: Novel mechanisms responsible for postmenopausal hypertension. Hypertension 2004, 43:918-923.
  • [5]Wizemann TM, Pardue ML: Exploring the Biological Contributions to Human Health: Does Sex Matter? Board on Health Sciences Policy. Washington, DC, USA: Institute of Medicine; 2001.
  • [6]Shaw LJ, Bairey Merz CN, Pepine CJ, Reis SE, Bittner V, Kelsey SF, Olson M, Johnson BD, Mankad S, Sharaf BL, Rogers WJ, Wessel TR, Arant CB, Pohost GM, Lerman A, Quyyumi AA, Sopko G, WISE Investigators: Insights From the NHLBI-Sponsored Women's Ischemia Syndrome Evaluation (WISE) Study: Part I: gender differences in traditional and novel risk factors, symptom evaluation, and gender-optimized diagnostic strategies. J Am Coll Cardiol 2006, 47:S4-S20.
  • [7]Shaw LJ, Bugiardini R, Merz CN: Women and ischemic heart disease: evolving knowledge. J Am Coll Cardiol 2009, 54:1561-1575.
  • [8]National Institutes of Health: NIH Policy and Guidelines on the inclusion of women and minorities as subjects in clinical research. [http://grants.nih.gov/grants/funding/women_min/guidelines_amended_10_2001.htm] webcite
  • [9]European Commission: Vademecum. Gender Mainstreaming in the 6th Framework Programme-Reference Guide for Scientific Officers/Project Officers. [ftp://ftp.cordis.europa.eu/pub/science-society/docs/gendervademecum.pdf] webcite
  • [10]Caron J: Canadian Institutes of Health Research. Report on governmental health research policies promoting gender or sex differences sensitivity. [http://dsp-psd.pwgsc.gc.ca/collection_2008/cihr-irsc/MR21-103-2003E.pdf] webcite
  • [11]Geller SE, Koch A, Pellettieri B, Carnes M: Inclusion, analysis and reporting of sex and race/ethnicity in clinical trials: have we made progress? J Women's Health 2011, 20:315-320.
  • [12]Foulkes MA: After inclusion, information and inference: reporting on clinical trials results after 15 years of monitoring inclusion of women. J Womens Health (Larchmt) 2011, 20:829-836.
  • [13]Blauwet LA, Hayes SN, McManus D, Redberg RF, Walsh MN: Low rate of sex-specific result reporting in cardiovascular trials. Mayo Clin Proc 2007, 82:166-170.
  • [14]Blauwet LA, Redberg RF: The role of sex-specific results reporting in cardiovascular disease. Cardiol Rev 2007, 15:275-278.
  • [15]Melloni C, Berger JS, Wang TY, Gunes F, Stebbins A, Pieper KS, Dolor RJ, Douglas PS, Mark DB, Newby LK: Representation of women in randomized clinical trials of cardiovascular disease prevention. Circ Cardiovasc Qual Outcomes 2010, 3:135-142.
  • [16]Wald C, Wu C: Of mice and women: the bias in animal models. Science 2010, 327:1571-1572.
  • [17]Beery AK, Zucker I: Sex bias in neuroscience and biomedical research. Neurosci Biobehav Rev 2011, 35:565-572.
  • [18]Taylor KE, Vallejo-Giraldo C, Schaible NS, Zakeri R, Miller VM: Reporting of sex as a variable in cardiovascular studies using cultured cells. Biol Sex Differ 2011, 2:11.
  • [19]Becker JB, Arnold AP, Berkley KJ, Blaustein JD, Eckel LA, Hampson E, Herman JP, Marts S, Sadee W, Steiner M, Taylor J, Young E: Strategies and methods for research on sex differences in brain and behavior. Endocrinology 2005, 146:1650-1673.
  • [20]Gillies GE, McArthur S: Estrogen actions in the brain and the basis for differential action in men and women: a case for sex-specific medicines. Pharmaco Rev 2010, 62:155-198.
  • [21]Fisher MR, Feuerstein G, Howells DW, Hurn PD, Kent TA, Savitz SI, Lo EH, STAIR Group: Update of the Stroke Therapy Academic Industry Roundtable Preclinical Recommendations. Stroke 2009, 40:2244-2249.
  • [22]Greenspan JD, Craft RM, LeResche L, Arendt-Nielsen L, Berkley KJ, Fillingim RB, Gold MS, Holdcroft A, Lautenbacher S, Mayer EA, Mogil JS, Murphy AZ, Traub RJ, Consensus Working Group of the Sex, and Pain SIG of the IASP: Studying sex and gender differences in pain and analgesia: a consensus report. Pain 2007, 132:S26-S45.
  • [23]Anonymous: Putting gender on the agenda. Nature 2010, 465:665.
  • [24]Kim AK, Tingen CM, Woodruff TK: Sex bias in trials and treatment must end. Nature 2010, 465:688-689.
  • [25]Arain FA, Kuniyoshi FH, Abdalrhim AD, Miller VM: Sex/gender medicine: the biological basis for personalized care in cardiovascular medicine. Circ J 2009, 73:1774-1782.
  • [26]Hamburg MA, Collins FS: The path to personalized medicine. N Engl J Med 2010, 363:301-304.
  • [27]Ginsburg GS, Willard HF: Genomic and personalized medicine: foundations and applications. Transl Res 2009, 154:277-287.
  • [28]Bairey Merz CN, Mark S, Boyan BD, Jacobs AK, Shah PK, Shaw LJ, Taylor D, Marban E: Proceedings from the scientific symposium: sex differences in cardiovascular disease and implications for therapies. J Womens Health (Larchmt) 2010, 19:1059-1072.
  • [29]Miller VM, Duckles SP: Vascular actions of estrogens: functional implications. Pharmacol Rev 2008, 60:210-241.
  • [30]Liu PY, Death AK, Handelsman DJ: Androgens and cardiovascular disease. Endocr Rev 2003, 24:313-340.
  • [31]Askew EB, Gampe RT Jr, Stanley TB, Faggart JL, Wilson EM: Modulation of androgen receptor activation function 2 by testosterone and dihydrotestosterone. J Biol Chem 2007, 282:25801-25816.
  • [32]Feldman RD, Gros R: Rapid vascular effects of steroids - a question of balance? Can J Cardiol 2010, 26(Suppl A):22A-26A.
  • [33]Nilsson BO, Olde B, Leeb-Lundberg LM: G protein-coupled estrogen receptor 1 (GPER1)/GPR30: a new player in cardiovascular and metabolic estrogenic signaling. Br J Pharmacol 2011, 163:1131-1139.
  • [34]Nilsson M, Dahlman-Wright K, Gustafsson JA: Nuclear receptors in disease: the oestrogen receptors. Essays Biochem 2004, 40:157-167.
  • [35]Lokuge S, Frey BN, Foster JA, Soares CN, Steiner M: The rapid effects of estrogen: a mini-review. Behav Pharmacol 2010, 21:465-472.
  • [36]Zhao C, Dahlman-Wright K, Gustafsson JA: Estrogen signaling via estrogen receptor β. J Biol Chem 2010, 285:39575-39579.
  • [37]Duckles SP, Miller VM: Hormonal modulation of endothelial NO production. Pflugers Arch 2010, 459:841-851.
  • [38]Ware RS, Rockefeller University and Population Council NY, NY, USA: The pharmacological profile of progestins. Maturitas 2008, 61:151-157.
  • [39]Attardi BJ, Page ST, Hild SA, Coss CC, Matsumoto AM: Mechanism of action of bolandiol (19-nortestosterone-3β,17β-diol), a unique anabolic steroid with androgenic, estrogenic, and progestational activities. J Steroid Biochem Mol Biol 2010, 118:151-161.
  • [40]Wang H, Li J, Gao Y, Xu Y, Pan Y, Tsuji I, Sun ZJ, Li XM: Xeno-oestrogens and phyto-oestrogens are alternative ligands for the androgen receptor. Asian J Androl 2010, 12:535-547.
  • [41]Prossnitz ER, Barton M: The G-protein-coupled estrogen receptor GPER in health and disease. Nat Rev Endocrinol 2011, 7:715-726.
  • [42]Quinkler M, Bumke-Vogt C, Meyer B, Bahr V, Oelkers W, Diederich S: The human kidney is a progesterone-metabolizing and androgen-producing organ. J Clin Endocrinol Metab 2003, 88:2803-2809.
  • [43]Mowa CN, Jesmin S, Miyauchi T: The penis: a new target and source of estrogen in male reproduction. Histol Histopathol 2006, 21:53-67.
  • [44]Sowers MF, Wilson AL, Kardia SR, Chu J, Ferrell RE: Aromatase gene (CYP 19) polymorphisms and endogenous androgen concentrations in a multiracial/multiethnic, multisite study of women at midlife. Am J Med 2006, 119:523-530.
  • [45]Syed F, Khosla S: Mechanisms of sex steroid effects on bone. Biochem Biophys Res Commun 2005, 328:688-696.
  • [46]Simpson ER, Davis SR: Minireview: aromatase and the regulation of estrogen biosynthesis - some new perspectives. Endocrinology 2001, 142:4589-4594.
  • [47]Miller VM: Estrogen metabolomics: a physiologists perspective. Hypertension 2010, 56:816-818.
  • [48]Dubey RK, Tofovic SP, Jackson EK: Cardiovascular pharmacology of estradiol metabolites. J Pharmacol Exp Ther 2004, 308:403-409.
  • [49]Berga SL: Systemic benefits of cyclic ovarian function. J Soc Gynecol Investig 2001, 8:S3-6.
  • [50]Miller VM, Black DM, Brinton EA, Budoff MJ, Cedars MI, Hodis HN, Lobo RA, Manson JE, Merriam GR, Naftolin F, Santoro N, Taylor HS, Harman SM: Using basic science to design a clinical trial: baseline characteristics of women enrolled in the Kronos Early Estrogen Prevention Study (KEEPS). J Cardiovasc Transl Res 2009, 2:228-239.
  • [51]Manson JE, Hsia J, Johnson KC, Rossouw JE, Assaf AR, Lasser NL, Trevisan M, Black HR, Heckbert SR, Detrano R, Strickland OL, Wong ND, Crouse JR, Stein E, Cushman M, Women's Health Initiative Investigators: Estrogen plus progestin and the risk of coronary heart disease. New Engl J Med 2003, 349:523-534.
  • [52]Manson JE, Allison MA, Rossouw JE, Carr JJ, Langer RD, Hsia J, Kuller LH, Cochrane BB, Hunt JR, Ludlam SE, Pettinger MB, Gass M, Margolis KL, Nathan L, Ockene JK, Prentice RL, Robbins J, Stefanick ML, WHI and WHI-CACS Investigators: Estrogen therapy and coronary-artery calcification. N Engl J Med 2007, 356:2591-2602.
  • [53]Utian WH, Archer DF, Bachmann GA, Gallagher C, Grodstein F, Heiman JR, Henderson VW, Hodis HN, Karas RH, Lobo RA, Manson JE, Reid RL, Schmidt PJ, Stuenkel CA, North American Menopause Society: Estrogen and progestogen use in postmenopausal women: July 2008 position statement of The North American Menopause Society. Menopause 2008, 15:584-603.
  • [54]Santen RJ, Allred DC, Ardoin SP, Archer DF, Boyd N, Braunstein GD, Burger HG, Colditz GA, Davis SR, Gambacciani M, Gower BA, Henderson VW, Jarjour WN, Karas RH, Kleerekoper M, Lobo RA, Manson JE, Marsden J, Martin KA, Martin L, Pinkerton JV, Rubinow DR, Teede H, Thiboutot DM, Utian WH, Endocrine Society: Postmenopausal Hormone Therapy: An Endocrine Society Scientific Statement. J Clin Endocrinol Metab 2010, 95(Suppl 1):S1-S66.
  • [55]Ostrer H: Sex-based differences in gene transmission and gene expression. Lupus 1999, 8:365-369.
  • [56]Avner P, Heard E: X-chromosome inactivation: counting, choice and initiation. Nat Rev Genet 2001, 2:59-67.
  • [57]McEwen BS: Invited review: Estrogens effects on the brain: multiple sites and molecular mechanisms. J Appl Physiol 2001, 91:2785-2801.
  • [58]Pierce JP, Kievits J, Graustein B, Speth RC, Iadecola C, Milner TA: Sex differences in the subcellular distribution of angiotensin type 1 receptors and NADPH oxidase subunits in the dendrites of C1 neurons in the rat rostral ventrolateral medulla. Neuroscience 2009, 163:329-338.
  • [59]Isensee J, Witt H, Pregla R, Hetzer R, Regitz-Zagrosek V, Noppinger PR: Sexually dimorphic gene expression in the heart of mice and men. J Mol Med 2008, 86:61-74.
  • [60]Yang X, Schadt EE, Wang S, Wang H, Arnold AP, Ingram-Drake L, Drake TA, Lusis AJ: Tissue-specific expression and regulation of sexually dimorphic genes in mice. Genome Res 2006, 16:995-1004.
  • [61]Antoniucci D, Miller VM, Sieck GC, Fitzpatrick LA: Gender-related differences in proliferative responses of vascular smooth muscle cells to endothelin-1. Endothelium 2001, 8:137-145.
  • [62]Rzewuska-Lech E, Jayachandran M, Fitzpatrick LA, Miller VM: Differential effects of 17β-estradiol and raloxifene on VSMC phenotype and expression of osteoblast-associated proteins. Am J Physiol Endocrinol Metab 2005, 289:E105-112.
  • [63]Bai Y, Sun T, Ye P: Age, gender and diabetic status are associated with effects of bone marrow cell therapy on recovery of left ventricular function after acute myocardial infarction: a systematic review and meta-analysis. Ageing Res Rev 2010, 9:418-423.
  • [64]Martin EA, Tan SL, MacBride LR, Lavi S, Lerman LO, Lerman A: Sex differences in vascular and endothelial responses to acute mental stress. Clin Auton Res 2008, 18:339-345.
  • [65]Zenovich AG, Taylor DA: Atherosclerosis as a disease of failed endogenous repair. Front Biosci 2008, 13:3621-3636.
  • [66]Nelson WD, Zenovich AG, Ott HC, Stolen C, Caron GJ, Panoskaltsis-Mortari A, Barnes SA, Xin X, Taylor DA: Sex-dependent attenuation of plaque growth after treatment with bone marrow mononuclear cells. Circ Res 2007, 101:1319-1327.
  • [67]Gold B, Bergeron J, Achtermarcher-Truinfol M, Dean M: Human duplex sex determination PCR. Biotechniques 2001, 31:28-35.
  • [68]Yu L, Martinez FD, Klimecki WT: Automated high-throughput sex-typing assay. Biotechniques 2004, 37:662-664.
  • [69]Schneider JE, Wysocki CJ, Nyby J, Whitney G: Determining the sex of neonatal mice. Behav Res Meth Instr 1978, 10:105.
  • [70]Waxman DJ, Dannan GA, Guengerich FP: Regulation of rat hepatic cytochrome P-450: age-dependent expression, hormonal imprinting, and xenobiotic inducibility of sex-specific isoenzymes. Biochemistry 1985, 24:4409-4417.
  • [71]Csaba G, Torok O, Kovacs P: Permanence of the cell-to-cell transmission of insulin induced hormonal imprinting. Acta Physiol Hung 1990, 75:111-116.
  • [72]Gros R, Ding Q, Sklar LA, Prossnitz EE, Arterburn JB, Chorazyczewski J, Feldman RD: GPR30 expression is required for the mineralocorticoid receptor-independent rapid vascular effects of aldosterone. Hypertension 2011, 57:442-451.
  • [73]Deenadayalu VP, White RE, Stallone JN, Gao X, Garcia AJ: Testosterone relaxes coronary arteries by opening the large-conductance, calcium-activated potassium channel. Am J Physiol Heart Circ Physiol 2001, 281:H1720-H1727.
  • [74]Rubio-Gayosso I, Garcia-Ramirez O, Gutierrez-Serdan R, Guevara-Balcazar G, Munoz-Garcia O, Morato-Cartajena T, Zamora-Garza M, Ceballos-Reyes G: Testosterone inhibits bradykinin-induced intracellular calcium kinetics in rat aortic endothelial cells in culture. Steroids 2002, 67:393-397.
  • [75]Luczak ED, Barthe KKB, Stauffer BL, Konhilas JP, Cheung TH, Leinwand LA: Remodeling the cardiac transcriptional landscape with diet. Physiol Genomics 2011, 43:772-780.
  • [76]Dodds WJ, Abelseth MK: Criteria for selecting the animal to meet the research need. Lab Anim Sci 1980, 30:460-465.
  • [77]Kaplan JR, Manuck SB: Status, stress, and atherosclerosis: the role of environment and individual behavior. Ann N Y Acad Sci 1999, 896:145-161.
  • [78]Kaplan JR, Manuck SB, Clarkson TB, Prichard RW: Animal models of behavioral influences on atherogenesis. Adv Behav Med 1985, 1:115-163.
  • [79]Solskov L, Lofgren B, Pold R, Kristiansen SB, Nielsen TT, Overstreet DH, Schmitz O, Botker HE, Lund S, Wegener G: Evaluation of the relationship between hyperinsulinaemia and myocardial ischaemia/reperfusion injury in a rat model of depression. Clin Sci (Lond) 2010, 118:259-267.
  • [80]Hildreth CM, Padley JR, Pilowsky PM, Goodchild AK: Impaired serotonergic regulation of heart rate may underlie reduced baroreflex sensitivity in an animal model of depression. Am J Physiol Heart Circ Physiol 2008, 294:H474-480.
  • [81]Yeh S, Tsai MY, Xu Q, Mu XM, Lardy H, Huang KE, Lin H, Yeh SD, Altuwaijri S, Zhou X, Xing L, Boyce BF, Hung MC, Zhang S, Gan L, Chang C: Generation and characterization of androgen receptor knockout (ARKO) mice: an in vivo model for the study of androgen functions in selective tissues. Proc Natl Acad Sci USA 2002, 99:13498-13503.
  • [82]Lin TH, Yeh S, Chang C: Tissue-specific knockout of androgen receptor in mice. Methods Mol Biol 2011, 776:275-293.
  • [83]Arias-Loza PA, Jazbutyte V, Pelzer T: Genetic and pharmacologic strategies to determine the function of estrogen receptor alpha and estrogen receptor beta in cardiovascular system. Gend Med 2008, 5(Suppl A):S34-45.
  • [84]Korach KS, Couse JF, Curtis SW, Washburn TF, Lindzey J, Kimbro KS, Eddy EM, Migliaccio S, Snedeker SM, Lubahn DB, Schomberg DW, Smith EP: Estrogen receptor gene disruption: molecular characterization and experimental and clinical phenotypes. Recent Prog Horm Res 1996, 51:159-186.
  • [85]Kerkhofs S, Denayer S, Haelens A, Claessens F: Androgen receptor knockout and knock-in mouse models. J Mol Endocrinol 2009, 42:11-17.
  • [86]De Gendt K, Verhoeven G: Tissue- and cell-specific functions of the androgen receptor revealed through conditional knockout models in mice. Mol Cell Endocrinol, in press.
  • [87]Libby P, Ridker PM, Hansson GK: Progress and challenges in translating the biology of atherosclerosis. Nature 2011, 473:317-325.
  • [88]Rauscher FM, Goldschmidt-Clermont PJ, Davis BH, Wang T, Gregg D, Ramaswami P, Pippen AM, Annex BH, Dong C, Taylor DA: Aging, progenitor cell exhaustion, and atherosclerosis. Circulation 2003, 108:457-463.
  • [89]Arnold AP, Chen X: What does the "four core genotypes" mouse model tell us about sex differences in the brain and other tissues? Front Neuroendocrinol 2009, 30:1-9.
  • [90]Rapp JP: Dahl salt-susceptible and salt-resistant rats. A review. Hypertension 1982, 4:753-763.
  • [91]Hinojosa-Laborde C, Lange DL, Haywood JR: Role of female sex hormones in the development and reversal of Dahl hypertension. Hypertension 2000, 35:484-489.
  • [92]Yanes LL, Sartori-Valinotti JC, Iliescu R, Romero DG, Racusen LC, Zhang H, Reckelhoff JF: Testosterone-dependent hypertension and upregulation of intrarenal angiotensinogen in Dahl salt-sensitive rats. Am J Physiol Renal Physiol 2009, 296:F771-779.
  • [93]Reckelhoff JF, Zhang H, Granger JP: Testosterone exacerbates hypertension and reduces pressure-natriuresis in male spontaneously hypertensive rats. Hypertension 1998, 31:435-439.
  • [94]Xue B, Pamidimukkala J, Hay M: Sex differences in the development of angiotensin II-induced hypertension in conscious mice. Am J Physiol Heart Circ Physiol 2005, 288:H2177-2184.
  • [95]Sartori-Valinotti JC, Iliescu R, Yanes LL, Dorsett-Martin W, Reckelhoff JF: Sex differences in the pressor response to angiotensin II when the endogenous renin-angiotensin system is blocked. Hypertension 2008, 51:1170-1176.
  • [96]Hoyer PB, Devine PJ, Hu X, Thompson KE, Sipes IG: Ovarian toxicity of 4-vinylcyclohexene diepoxide: a mechanistic model. Toxicol Pathol 2001, 29:91-99.
  • [97]Van Kempen TA, Milner TA, Waters EM: Accelerated ovarian failure: a novel, chemically induced animal model of menopause. Brain Res 2011, 1379:176-187.
  • [98]Mark-Kappeler CJ, Sen N, Lukefahr A, McKee L, Sipes IG, Konhilas J, Hoyer PB: Inhibition of ovarian KIT phosphorylation by the ovotoxicant 4-vinylcyclohexene diepoxide in rats. Biol Reprod 2011, 85:755-762.
  • [99]Keating AF, Fernandez SM, Mark-Kappeler CJ, Sen N, Sipes IG, Hoyer PB: Inhibition of PIK3 signaling pathway members by the ovotoxicant 4-vinylcyclohexene diepoxide in rats. Biol Reprod 2011, 84:743-751.
  • [100]Wright LE, Christian PJ, Rivera Z, Van Alstine WG, Funk JL, Bouxsein ML, Hoyer PB: Comparison of skeletal effects of ovariectomy versus chemically induced ovarian failure in mice. J Bone Miner Res 2008, 23:1296-1303.
  • [101]Wright LE, Frye JB, Lukefahr AL, Marion SL, Hoyer PB, Besselsen DG, Funk JL: 4-Vinylcyclohexene diepoxide (VCD) inhibits mammary epithelial differentiation and induces fibroadenoma formation in female Sprague Dawley rats. Reprod Toxicol 2011, 32:26-32.
  • [102]Davison SL, Bell R, Donath S, Montalto JG, Davis SR: Androgen levels in adult females: changes with age, menopause, and oophorectomy. J Clin Endocrinol Metab 2005, 90:3847-3853.
  • [103]Adashi EY: The climacteric ovary as a functional gonadotropin-driven androgen-producing gland. Fertil Steril 1994, 62:20-27.
  • [104]Perusquia M, Stallone JN: Do androgens play a beneficial role in the regulation of vascular tone? Nongenomic vascular effects of testosterone metabolites. Am J Physiol Heart Circ Physiol 2010, 298:H1301-1307.
  • [105]Appt SE, Clarkson TB, Hoyer PB, Kock ND, Goode AK, May MC, Persyn JT, Vail NK, Ethun KF, Chen H, Sen N, Kaplan JR: Experimental induction of reduced ovarian reserve in a nonhuman primate model (Macaca fascicularis). Comp Med 2010, 60:380-388.
  • [106]Rivera Z, Christian PJ, Marion SL, Brooks HL, Hoyer PB: Steroidogenic capacity of residual ovarian tissue in 4-vinylcyclohexene diepoxide-treated mice. Biol Reprod 2009, 80:328-336.
  • [107]Langrish JP, Mills NL, Bath LE, Warner P, Webb DJ, Kelnar CJ, Critchley HO, Newby DE, Wallace WH: Cardiovascular effects of physiological and standard sex steroid replacement regimens in premature ovarian failure. Hypertension 2009, 53:805-811.
  • [108]Umetani M, Domoto H, Gormley AK, Yuhanna IS, Cummins CL, Liverman AB, Javitt NB, Shaul PW, Mangelsdorf DJ: 27-Hydroxycholesterol is an endogenous selective estrogen receptor modulator that inhibits the cardiovascular effects of estrogen. Nat Med 2007, 13:1185-1192.
  • [109]Shockley KR, Witmer D, Burgess-Herbert SL, Paigen B, Churchill GA: Effects of atherogenic diet on hepatic gene expression across mouse strains. Physiol Genomics 2009, 39:172-182.
  • [110]Korstanje R, Li R, Howard T, Kelmenson P, Marshall J, Paigen B, Churchill G: Influence of sex and diet on quantitative trait loci for HDL cholesterol levels in an SM/J by NZB/BlNJ intercross population. J Lipid Res 2004, 45:881-888.
  • [111]Bevan JA: Sites of transition between functional systemic and cerebral arteries of rabbits occur at embryological junctional sites. Science 1979, 204:635-637.
  • [112]Bode-Boger SM, Boger RH, Kienke S, Bohme M, Phivthong-ngam L, Tsikas D, Frolich JC: Chronic dietary supplementation with l-arginine inhibits platelet aggregation and thromboxane A2 synthesis in hypercholesterolaemic rabbits in vivo. Cardiovasc Res 1998, 37:756-764.
  • [113]Boger RH, Bode-Boger SM, Kienke S, Stan AC, Nafe R, Frolich JC: Dietary l-arginine decreases myointimal cell proliferation and vascular monocyte accumulation in cholesterol-fed rabbits. Atherosclerosis 1998, 136:67-77.
  • [114]Finta KM, Fischer MJ, Lee L, Gordon D, Pitt B, Webb RC: Ramipril prevents impaired endothelium-dependent relaxation in arteries from rabbits fed an atherogenic diet. Atherosclerosis 1993, 100:149-156.
  • [115]Gisclard V, Flavahan NA, Vanhoutte PM: Alpha-adrenergic responses of blood vessels of rabbits after ovariectomy and administration of 17 β-estradiol. J Pharmacol Exper Ther 1987, 240:446-470.
  • [116]Kanazawa K, Kawashima S, Mikami S, Miwa Y, Hirata K, Suematsu M, Hayashi Y, Itoh H, Yokoyama M: Endothelial constitutive nitric oxide synthase protein and mRNA increased in rabbit atherosclerotic aorta despite impaired endothelium-dependent vascular relaxation. Am J Pathol 1996, 148:1949-1956.
  • [117]Langille BL, Reidy MA, Kline RL: Injury and repair of endothelium at sites of flow disturbances near abdominal aortic coarctation in rabbits. Arteriosclerosis 1986, 6:146-154.
  • [118]Verbeuren TJ, Jordaens FH, Zonnekeyn LL, VanHove CE, Coene M-C, Herman AG: Effect of hypercholesterolemia on vascular reactivity in the rabbit. I. Endothelium-dependent and endothelium-independent contractions and relaxations in isolated arteries of control and hypercholesterolemic rabbits. Circ Res 1986, 58:552-564.
  • [119]Fong IW, Chiu B, Viira E, Fong MW, Jang D, Mahony J: Rabbit model for Chlamydia pneumoniae infection. J Clin Microbiol 1997, 35:48-52.
  • [120]Zheng B, Zheng T, Wang L, Chen X, Shi C, Zhao S: Aminoguanidine inhibition of iNOS activity ameliorates cerebral vasospasm after subarachnoid hemorrhage in rabbits via restoration of dysfunctional endothelial cells. J Neurol Sci 2010, 295:97-103.
  • [121]Lotz C, Lazariotto M, Redel A, Smul TM, Stumpner J, Blomeyer C, Tischer-Zeitz T, Schmidt J, Pociej J, Roewer N, Kehl F, Lange M: Activation of peroxisome-proliferator-activated receptors alpha and gamma mediates remote ischemic preconditioning against myocardial infarction in vivo. Exp Biol Med (Maywood) 2011, 236:113-122.
  • [122]Raphael J, Gozal Y, Navot N, Zuo Z: Hyperglycemia inhibits anesthetic-induced postconditioning in the rabbit heart via modulation of phosphatidylinositol-3-kinase/Akt and endothelial nitric oxide synthase signaling. J Cardiovasc Pharmacol 2010, 55:348-357.
  • [123]Chobanian AV, Haudenschild CC, Nickerson C, Drago R: Antiatherogenic effect of captopril in the Watanabe heritable hyperlipidemic rabbit. Hypertension 1990, 15:327-331.
  • [124]Kolodgie FD, Virmani R, Rice HE, Mergner WJ: Vascular reactivity during the progression of atherosclerotic plaque. A study in Watanabe heritable hyperlipidemic rabbits. Circ Res 1990, 66:1112-1126.
  • [125]Bjarnason NH, Haarbo J, Byrjalsen I, Kauffman RF, Christiansen C: Reloxifene inhibits aortic accumulation of cholesterol in ovariectomized, cholesterol-fed rabbits. Circulation 1998, 96:1964-1969.
  • [126]Cayatte AJ, Palacino JJ, Horten K, Cohen RA: Chronic inhibition of nitric oxide production accelerates neointima formation and impairs endothelial function in hypercholesterolemic rabbits. Atheroscler Thromb 1994, 14:753-759.
  • [127]Krasinski K, Spyridopoulos I, Asahara T, van der Zee R, Isner JM, Losordo DW: Estradiol accelerates functional endothelial recovery after arterial injury. Circulation 1997, 95:1768-1772.
  • [128]Miller VM, Aarhus LL, Vanhoutte PM: Effects of estrogens on adrenergic and endothelium-dependent responses in the ovarian artery of the rabbit. In Proceedings of the Second International Symposium on Resistance Arteries. Edited by Halpern W, Brayden JE, McLaughlin M, Osol G, Pegram BL, Mackey K. Ithaca, NY: Perinatology Press; 1988:136-145.
  • [129]Gisclard V, Miller VM, Vanhoutte PM: Effect of 17β-estradiol on endothelium-dependent responses in the rabbit. J Pharmacol Exper Ther 1988, 244:19-22.
  • [130]Gerova M, Holecyova A, Kristek F, Fizel A, Fizel'ova A: Remodelling and functional alterations of the rabbit coronary artery in volume overloaded heart. Cardiovasc Res 1993, 27:2005-2010.
  • [131]Heusch G, Guth BD, Seitelberger R, Ross J Jr: Attenuation of exercise-induced myocardial ischemia in dogs with recruitment of coronary vasodilator reserve by nifedipine. Circulation 1987, 75:482-490.
  • [132]Atkins BZ, Hueman MT, Meuchel JM, Cottman MJ, Hutcheson KA, Taylor DA: Myogenic cell transplantation improves in vivo regional performance in infarcted rabbit myocardium. J Heart Lung Transplant 1999, 18:1173-1180.
  • [133]Emani SM, Ellis MJ, Dibernardo LR, Colgrove S, Glower DD, Taylor DA: Systolic contraction within aneurysmal rabbit myocardium following transplantation of autologous skeletal myoblasts. J Surg Res 2006, 135:202-208.
  • [134]Taylor DA, Atkins BZ, Hungspreugs P, Jones TR, Reedy MC, Hutcheson KA, Glower DD, Kraus WE: Regenerating functional myocardium: improved performance after skeletal myoblast transplantation. Nat Med 1998, 4:929-933.
  • [135]Davidson J, Spreadbury D: Nutrition of the New Zealand white rabbit. Proc Nutr Soc 1975, 34:75-83.
  • [136]Karpuzoglu E, Ahmed SA: Estrogen regulation of nitric oxide and inducible nitric oxide synthase (iNOS) in immune cells: implications for immunity, autoimmune diseases, and apoptosis. Nitric Oxide 2006, 15:177-186.
  • [137]Libby P: Inflammation in atherosclerosis. Nature 2002, 420:868-874.
  • [138]Miller AP, Chen YF, Xing D, Feng W, Oparil S: Hormone replacement therapy and inflammation: interactions in cardiovascular disease. Hypertension 2003, 42:657-663.
  • [139]Miller VM, Jayachandran M, Hashimoto K, Heit JA, Owen WG: Estrogen, inflammation, and platelet phenotype. Gender Med 2008, 5:S91-S102.
  • [140]Gandolfi F, Vanelli A, Pennarossa G, Rahaman M, Acocella F, Brevini TA: Large animal models for cardiac stem cell therapies. Theriogenology 2011, 75:1416-1425.
  • [141]Reckelhoff JF: Age-related changes in renal hemodynamics in female rats: role of multiple pregnancy and NO. Am J Physiol 1997, 272:R1985-1989.
  • [142]Baylis C: Immediate and long-term effects of pregnancy on glomerular function in the SHR. Am J Physiol 1989, 257:F1140-1145.
  • [143]Donald DE, Ferguson DA: Study of the sympathetic vasoconstrictor nerves to the vessels of the dog hind limb. Circ Res 1970, 26:171-184.
  • [144]Hintze TH, Vatner SF: Reactive dilation of large coronary artereis in conscious dogs. Circ Res 1984, 54:50-57.
  • [145]Murray PA, Lavallee M, Vatner SF: Alpha-adrenergic-mediated reduction in coronary blood flow secondary to carotid chemoreceptor reflex activation in conscious dogs. Circ Res 1984, 54:96-106.
  • [146]Sessa WC, Pritchard K, Seyedi N, Wang J, Hintze TH: Chronic exercise in dogs increases coronary vascular nitric oxide production and endothelial cell nitric oxide synthase gene expression. Circ Res 1994, 74:349-353.
  • [147]Broten TP, Miyashiro JK, Moncada S, Feigl EO: Role of endothelium-derived relaxing factor in parasympathetic coronary vasodilation. Am J Physiol 1992, 262:H1579-H1584.
  • [148]Cohen RA, Shepherd JT, Vanhoutte PM: Prejunctional and postjunctional actions of endogenous norepinephrine at the sympathetic neuroeffector junction in canine coronary arteries. Circ Res 1983, 52:16-25.
  • [149]Redfield M, Edwards B, McGoon M, Heublein D, Aarhus LL, Burnett JC Jr: Failure of atrial natriuretic factor to increase with volume expansion in acute and chronic congestive heart failure in the dog. Circulation 1989, 80:651-657.
  • [150]Leri A, Liu Y, Malhotra A, Li Q, Stiegler P, Claudio PP, Giordano A, Kajstura J, Hintze TH, Anversa P: Pacing-induced heart failure in dogs enhances the expression of p53 and p53-dependent genes in ventricular myocytes. Circulation 1998, 97:194-203.
  • [151]DeMey JG, Claeys M, Vanhoutte PM: Endothelium-dependent inhibitory effects of acetylcholine, adenosine triphosphate, thrombin and arachidonic acid in the canine femoral artery. J Pharmacol Exper Thera 1982, 222:166-173.
  • [152]Miller VM, Vanhoutte PM: Progesterone and modulation of endothelium-dependent responses in canine coronary arteries. Am J Physiol 1991, 261:R1022-R1027.
  • [153]Miller VM, Burnett JC Jr: Modulation of nitric oxide and endothelin by chronic increases in blood flow in canine femoral arteries. Am J Physiol 1992, 263:H103-H108.
  • [154]Miller VM, Marcelon G, Vanhoutte PM: Progesterone augments the venoconstrictor effect of Ruscus without altering adrenergic reactivity. Phlebology 1992, 6:261-268.
  • [155]Chatrath R, Ronningen KL, LaBreche P, Severson SR, Jayachandran M, Bracamonte MP, Miller VM: Effect of puberty on coronary arteries from female pigs. J Appl Physiol 2003, 95:1672-1680.
  • [156]Chatrath R, Ronningen KL, Severson SR, LaBreche P, Jayachandran M, Bracamonte MP, Miller VM: Endothelium-dependent responses in coronary arteries are changed with puberty in male pigs. Am J Physiol: Heart Circ Physiol 2003, 285:H1168-H1176.
  • [157]Shimokawa H, Aarhus LL, Vanhoutte PM: Porcine coronary arteries with regenerated endothelium have a reduced endothelium-dependent responsiveness to aggregating platelets and serotonin. Circ Res 1987, 61:256-270.
  • [158]Payne GA, Borbouse L, Kumar S, Neeb Z, Alloosh M, Sturek M, Tune JD: Epicardial perivascular adipose-derived leptin exacerbates coronary endothelial dysfunction in metabolic syndrome via a protein kinase C-beta pathway. Arterioscler Thromb Vasc Biol 2010, 30:1711-1717.
  • [159]Neeb ZP, Edwards JM, Alloosh M, Long X, Mokelke EA, Sturek M: Metabolic syndrome and coronary artery disease in Ossabaw compared with Yucatan swine. Comp Med 2010, 60:300-315.
  • [160]Dyson MC, Alloosh M, Vuchetich JP, Mokelke EA, Sturek M: Components of metabolic syndrome and coronary artery disease in female Ossabaw swine fed excess atherogenic diet. Comp Med 2006, 56:35-45.
  • [161]Kaplan JR, Adams MR, Clarkson TB, Manuck SB, Shively CA, Williams JK: Psychosocial factors, sex differences, and atherosclerosis: lessons from animal models. Psychosom Med 1996, 58:598-611.
  • [162]Bond MG, Bullock BC, Bellinger DA, Hamm TE: Myocardial infarction in a large colony of nonhuman primates with coronary artery atherosclerosis. Am J Pathol 1980, 101:675-692.
  • [163]Kaplan JR, Manuck SB: Ovarian dysfunction, stress, and disease: a primate continuum. ILAR J 2004, 45:89-115.
  • [164]Hamm TE Jr, Kaplan JR, Clarkson TB, Bullock BC: Effects of gender and social behavior on the development of coronary artery atherosclerosis in cynomolgus macaques. Atherosclerosis 1983, 48:221-233.
  • [165]Kaplan JR, Manuck SB: Ovarian dysfunction and the premenopausal origins of coronary heart disease. Menopause 2008, 15:768-776.
  • [166]Berga SL, Mortola JF, Girton L, Suh BY, Laughlin G, Pham P, Yen SSC: Neuroendocrine aberrations in women with functional hypothalamic amenorrhea. J Clin Endocrinol Metab 1989, 68:301 308.
  • [167]Adams MR, Kaplan JR, Clarkson TB, Koritnik DR: Ovariectomy, social status, and atherosclerosis in cynomolgus monkeys. Arteriosclerosis 1985, 5:192-200.
  • [168]Kaplan JR, Adams MR, Anthony MS, Morgan TM, Manuck SB, Clarkson TB: Dominant social status and contraceptive hormone treatment inhibit atherogenesis in premenopausal monkeys. Arterioscler Thromb Vasc Biol 1995, 15:2094-2100.
  • [169]Kaplan JR, Manuck SB, Anthony MS, Clarkson TB: Premenopausal social status and hormone exposure predict postmenopausal atherosclerosis in female monkeys. Obstet Gynecol 2002, 99:381-388.
  • [170]Clarkson TB, Anthony MS, Morgan TM: Inhibition of postmenopausal atherosclerosis progression: a comparison of the effects of conjugated equine estrogens and soy phytoestrogens. J Clin Endocrinol Metab 2001, 86:41-47.
  • [171]Adams MR, Kaplan JR, Manuck SB, Koritnik DR, Parks JS, Wolfe MS, Clarkson TB: Inhibition of coronary artery atherosclerosis by 17-β-estradiol in ovariectomized monkeys. Lack of an effect of added progesterone. Arteriosclerosis 1990, 10:1051-1057.
  • [172]Clarkson TB: Estrogen effects on arteries vary with stage of reproductive life and extent of subclinical atherosclerosis progression. Menopause 2007, 14:373-384.
  • [173]Anthony MS, Clarkson TB: Does extent of pretreatment atherosclerosis influence the effects of conjugated equine estrogens on atherosclerosis progression? J Am Coll Cardiol 2002, 39(Suppl A):248A.
  • [174]Evans AM: Age at puberty and first litter size in early and late paired rats. Biol Reprod 1986, 34:322-323.
  • [175]Felicio LS, Nelson JF, Finch CE: Longitudinal studies of estrous cyclicity in aging C57BL/6J mice: II. Cessation of cyclicity and the duration of persistent vaginal cornification. Biol Reprod 1984, 31:446-453.
  • [176]Fortepiani LA, Zhang H, Racusen L, Roberts LJn, Reckelhoff JF: Characterization of an animal model of postmenopausal hypertension in spontaneously hypertensive rats. Hypertension 2003, 41:460-463.
  • [177]Tower AM, Trinward A, Lee K, Joseph L, Jacobson HI, Bennett JA, Andersen TT: AFPep, a novel drug for the prevention and treatment of breast cancer, does not disrupt the estrous cycle or fertility in rats. Oncol Rep 2009, 22:49-56.
  • [178]Baylis C: Glomerular ultrafiltration in the pseudopregnant rat. Am J Physiol 1982, 234:F300-F305.
  • [179]Swingle WW, Seay P, Perlmutt J, Collins EJ, Barlow G, Fedor EJ: An experimental study of pseudopregnancy in rat. Am J Physiol 1951, 167:586-592.
  • [180]Butcher RL, Collins WE, Fugo NW: Plasma concentrations of LH, FSH, prolactin, protesterone and estradiol-17β through the 4-day estrous cycle of the rat. Endocrinol 1974, 94:1704-1708.
  • [181]Teixeira Gomes RC, Verna C, Nader HB, dos Santos Simoes R, Dreyfuss JL, Martins JR, Baracat EC, de Jesus Simoes M, Soares JM Jr: Concentration and distribution of hyaluronic acid in mouse uterus throughout the estrous cycle. Fertil Steril 2009, 92:785-792.
  • [182]Kramer PR, Bellinger LL: The effects of cycling levels of 17β-estradiol and progesterone on the magnitude of temporomandibular joint-induced nociception. Endocrinology 2009, 150:3680-3689.
  • [183]Ferin M, Jewelewicz R, Warren M: The Menstrual Cycle: Physiology, Reproductive Disorders, and Infertility. 1st edition. Oxford, UK: Oxford University Press; 1993.
  • [184]Kaplan JR, Chen H, Appt SE, Lees CJ, Franke AA, Berga SL, Wilson ME, Manuck SB, Clarkson TB: Impairment of ovarian function and associated health-related abnormalities are attributable to low social status in premenopausal monkeys and not mitigated by a high-isoflavone soy diet. Hum Reprod 2010, 25:3083-3094.
  • [185]Adams MR, Williams JK, Kaplan JR: Effects of androgens on coronary artery atherosclerosis and atherosclerosis-related impairment of vascular responsiveness. Arterioscler Thromb 1995, 15:562-570.
  • [186]Jenkins C, Salisbury R, Ely D: Castration lowers and testosterone restores blood pressure in several rat strains on high sodium diets. Clin Exp Hypertens 1994, 16:611-625.
  • [187]Hotchkiss CE, Stavisky R, Nowak J, Brommage R, Lees CJ, Kaplan J: Levormeloxifene prevents increased bone turnover and vertebral bone loss following ovariectomy in cynomolgus monkeys. Bone 2001, 29:7-15.
  • [188]O'Brien Z, Post N, Brown M, Madan A, Coon T, Luo R, Kohout TA: Validation and application of a liquid chromatography-tandem mass spectrometric method for the simultaneous determination of testosterone and dihydrotestosterone in rat prostatic tissue using a 96-well format. J Chromatogr B Analyt Technol Biomed Life Sci 2009, 877:3515-3521.
  • [189]Brundu B, Loucks TL, Adler LJ, Cameron JL, Berga SL: Increased cortisol in the cerebrospinal fluid of women with functional hypothalamic amenorrhea. J Clin Endocrinol Metab 2006, 91:1561-1565.
  • [190]Abiola O, Angel JM, Avner P, Bachmanov AA, Belknap JK, Bennett B, Blankenhorn EP, Blizard DA, Bolivar V, Brockmann GA, Buck KJ, Bureau JF, Casley WL, Chesler EJ, Cheverud JM, Churchill GA, Cook M, Crabbe JC, Crusio WE, Darvasi A, de Haan G, Dermant P, Doerge RW, Elliot RW, Farber CR, Flaherty L, Flint J, Gershenfeld H, Gibson JP, Gu J: The nature and identification of quantitative trait loci: a community's view. Nat Rev Genet 2003, 4:911-916.
  • [191]Paigen B, Plump AS, Rubin EM: The mouse as a model for human cardiovascular disease and hyperlipidemia. Curr Opin Lipidol 1994, 5:258-264.
  • [192]Nikoh N, Duty A, Gibson G: Effects of population structure and sex on association between serotonin receptors and Drosophila heart rate. Genetics 2004, 168:1963-1974.
  • [193]Isensee J, Ruiz Noppinger P: Sexually dimorphic gene expression in mammalian somatic tissue. Gend Med 2007, 4(Suppl B):S75-95.
  • [194]Mahaney MC, Blangero J, Rainwater DL, Mott GE, Comuzzie AG, MacCluer JW, VandeBerg JL: Pleiotropy and genotype by diet interaction in a baboon model for atherosclerosis: a multivariate quantitative genetic analysis of HDL subfractions in two dietary environments. Arterioscler Thromb Vasc Biol 1999, 19:1134-1141.
  • [195]Tejero ME, Voruganti VS, Rodriguez-Sanchez IP, Proffitt JM, Blangero J, Cox LA, Mahaney MC, Rogers J, VandeBerg JL, Cole SA, Comuzzie AG: Genetics of variation in adiponectin in pedigreed baboons: evidence for pleiotropic effects on adipocyte volume and serum adiponectin. Heredity 2008, 100:382-389.
  • [196]Lyon MF, Seale AG (Eds): Genetic Variants and Strains of the Laboratory Mouse. 2nd edition. Oxford, UK: Oxford University Press; 1989.
  • [197]Green EL (Ed): Biology of the Laboratory Mouse. 2nd edition. New York, USA: Dover Publications, Inc.; 1966.
  • [198]Ernest S, Hosack A, O'Brien WE, Rosenblatt DS, Nadeau JH: Homocysteine levels in A/J and C57BL/6J mice: genetic, diet, gender, and parental effects. Physiol Genomics 2005, 21:404-410.
  • [199]Hoit BD, Kiatchoosakun S, Restivo J, Kirkpatrick D, Olszens K, Shao H, Pao YH, Nadeau JH: Naturally occurring variation in cardiovascular traits among inbred mouse strains. Genomics 2002, 79:679-685.
  • [200]Mouse Phenotype Database Integration Consortium, Hancock JM, Adams NC, Aidinis V, Blake A, Bogue M, Brown SD, Chesler EJ, Davidson D, Duran C, Eppig JT, Gailus-Durner V, Gates H, Gkoutos GV, Greenaway S, Hrabé de Angelis M, Kollias G, Leblanc S, Lee K, Lengger C, Maier H, Mallon AM, Masuya H, Melvin DG, Müller W, Parkinson H, Proctor G, Reuveni E, Schofield P, Shukla A, et al.: Mouse Phenotype Database Integration Consortium: integration [corrected] of mouse phenome data resources. Mamm Genome 2007, 18:157-163.
  • [201]Kirby A, Kang HM, Wade CM, Cotsapas C, Kostem E, Han B, Furlotte N, Kang EY, Rivas M, Bogue MA, Frazer KA, Johnson FM, Beilharz EJ, Cox DR, Eskin E, Daly MJ: Fine mapping in 94 inbred mouse strains using a high-density haplotype resource. Genetics 2010, 185:1081-1095.
  • [202]Bennett BJ, Farber CR, Orozco L, Kang HM, Ghazalpour A, Siemers N, Neubauer M, Neuhaus I, Yordanova R, Guan B, Truong A, Yang WP, He A, Kayne P, Gargalovic P, Kirchgessner T, Pan C, Castellani LW, Kostem E, Furlotte N, Drake TA, Eskin E, Lusis AJ: A high-resolution association mapping panel for the dissection of complex traits in mice. Genome Res 2010, 20:281-290.
  • [203]Twigger SN, Pruitt KD, Fernández-Suárez XM, Karolchik D, Worley KC, Maglott DR, Brown G, Weinstock G, Gibbs RA, Kent J, Birney E, Jacob HJ: What everybody should know about the rat genome and its online resources. Nat Genet 2008, 40:523-527.
  • [204]Liu P, Vikis H, Lu Y, Wang D, You M: Large-scale in silico mapping of complex quantitative traits in inbred mice. PLoS One 2007, 2:e651.
  • [205]Blake JA, Bult CJ, Kadin JA, Richardson JE, Eppig JT: The Mouse Genome Database (MGD): premier model organism resource for mammalian genomics and genetics. Nucleic Acids Res 2011, 39:D842-848.
  • [206]Moreno C, Dumas P, Kaldunski ML, Tonellato PJ, Greene AS, Roman RJ, Cheng Q, Wang Z, Jacob HJ, Cowley AW Jr: Genomic map of cardiovascular phenotypes of hypertension in female Dahl S rats. Physiol Genomics 2003, 15:243-257.
  • [207]Stoll M, Cowley AW Jr, Tonellato PJ, Greene AS, Kaldunski ML, Roman RJ, Dumas P, Schork NJ, Wang Z, Jacob HJ: A genomic-systems biology map for cardiovascular function. Science 2001, 294:1723-1726.
  • [208]Mattson DL, Dwinell MR, Greene AS, Kwitek AE, Roman RJ, Jacob HJ, Cowley AW Jr: Chromosome substitution reveals the genetic basis of Dahl salt-sensitive hypertension and renal disease. Am J Physiol Renal Physiol 2008, 295:F837-842.
  • [209]Nadeau JH, Singer JB, Matin A, Lander ES: Analysing complex genetic traits with chromosome substitution strains. Nat Genet 2000, 24:221-225.
  • [210]Yazbek SN, Buchner DA, Geisinger JM, Burrage LC, Spiezio SH, Zentner GE, Hsieh CW, Scacheri PC, Croniger CM, Nadeau JH: Deep congenic analysis identifies many strong, context-dependent QTLs, one of which, Slc35b4, regulates obesity and glucose homeostasis. Genome Res 2011, 21:1065-1073.
  • [211]Wang S, Yehya N, Schadt EE, Wang H, Drake TA, Lusis AJ: Genetic and genomic analysis of a fat mass trait with complex inheritance reveals marked sex specificity. PLoS Genet 2006, 2:e15.
  • [212]Cheverud JM, Lawson HA, Fawcett GL, Wang B, Pletscher LS, A RF, Maxwell TJ, Ehrich TH, Kenney-Hunt JP, Wolf JB, Semenkovich CF: Diet-dependent genetic and genomic imprinting effects on obesity in mice. Obesity (Silver Spring) 2011, 19:160-170.
  • [213]Hager R, Cheverud JM, Leamy LJ, Wolf JB: Sex dependent imprinting effects on complex traits in mice. BMC Evol Biol 2008, 8:303.
  • [214]van Nas A, Ingram-Drake L, Sinsheimer JS, Wang SS, Schadt EE, Drake T, Lusis AJ: Expression quantitative trait loci: replication, tissue- and sex-specificity in mice. Genetics 2010, 185:1059-1068.
  • [215]Arnold AP, van Nas A, Lusis AJ: Systems biology asks new questions about sex differences. Trends Endocrinol Metab 2009, 20:471-476.
  • [216]Norgard EA, Lawson HA, Pletscher LS, Wang B, Brooks VR, Wolf JB, Cheverud JM: Genetic factors and diet affect long-bone length in the F34 LG,SM advanced intercross. Mamm Genome 2011, 22:178-196.
  • [217]Aylor DL, Valdar W, Foulds-Mathes W, Buus RJ, Verdugo RA, Baric RS, Ferris MT, Frelinger JA, Heise M, Frieman MB, Gralinski LE, Bell TA, Didion JD, Hua K, Nehrenberg DL, Powell CL, Steigerwalt J, Xie Y, Kelada SN, Collins FS, Yang IV, Schwartz DA, Branstetter LA, Chesler EJ, Miller DR, Spence J, Liu EY, McMillan L, Sarkar A, Wang J: Genetic analysis of complex traits in the emerging Collaborative Cross. Genome Res 2011, 21:1213-1222.
  • [218]Iraqi FA, Churchill G, Mott R: The Collaborative Cross, developing a resource for mammalian systems genetics: a status report of the Wellcome Trust cohort. Mamm Genome 2008, 19:379-381.
  • [219]Mathes WF, Aylor DL, Miller DR, Churchill GA, Chesler EJ, de Villena FP, Threadgill DW, Pomp D: Architecture of energy balance traits in emerging lines of the Collaborative Cross. Am J Physiol Endocrinol Metab 2011, 300:E1124-1134.
  • [220]Zucker I, Beery A: Males still dominate animal studies. Nature 2010, 465:690.
  • [221]Steiner M: Serotonin, depression, and cardiovascular disease: sex-specific issues. Acta Physiol (Oxf) 2011, 203:253-258.
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