Purinergic Signalling

, Volume 9, Issue 4, pp 573–583

Adenosine A2A receptor (A2AR) is a fine-tune regulator of the collagen1:collagen3 balance

  • Miguel Perez-Aso
  • Aránzazu Mediero
  • Bruce N. Cronstein
Original Article
First Online:
Received:
Accepted:

DOI: 10.1007/s11302-013-9368-1

Cite this article as:
Perez-Aso, M., Mediero, A. & Cronstein, B.N. Purinergic Signalling (2013) 9: 573. doi:10.1007/s11302-013-9368-1

Abstract

Adenosine is a potent endogenous anti-inflammatory and immunosuppressive metabolite that is a potent modulator of tissue repair. However, the adenosine A2A receptor (A2AR)-mediated promotion of collagen synthesis is detrimental in settings such as scarring and scleroderma. The signaling cascade from A2AR stimulation to increased collagen production is complex and obscure, not least because cAMP and its downstream molecules PKA and Epac1 have been reported to inhibit collagen production. We therefore examined A2AR-stimulated signaling for collagen production by normal human dermal fibroblasts (NHDF). Collagen1 (Col1) and collagen3 (Col3) content after A2AR activation by CGS21680 was studied by western blotting. Contribution of PKA and Epac was analyzed by the PKA inhibitor PKI and by knockdowns of the PKA-Cα, -Cβ, -Cγ, Epac1, and Epac2. CGS21680 stimulates Col1 expression at significantly lower concentrations than those required to stimulate Col3 expression. A2AR stimulates Col1 expression by a PKA-dependent mechanism since PKA inhibition or PKA-Cα and -Cβ knockdown prevents A2AR-mediated Col1 increase. In contrast, A2AR represses Col3 via PKA but stimulates both Col1 and Col3 via an Epac2-dependent mechanism. A2AR stimulation with CGS21680 at 0.1 μM increased Col3 expression only upon PKA blockade. A2AR activation downstream signaling for Col1 and Col3 expression proceeds via two distinct pathways with varying sensitivity to cAMP activation; more highly cAMP-sensitive PKA activation stimulates Col1 expression, and less cAMP-sensitive Epac activation promotes both Col1 and Col3 expression. These observations may explain the dramatic change in Col1:Col3 ratio in hypertrophic and immature scars, where adenosine is present in higher concentrations than in normal skin.

Keywords

Adenosine Adenosine receptor A2 Collagen type I Collagen type III PKA Epac 

Abbreviations

Col1

Collagen type I

Col3

Collagen type III

A2AR

Adenosine A2 receptor

NHDF

Normal human dermal fibroblasts

Supplementary material

11302_2013_9368_MOESM1_ESM.pdf (21 kb)
Supplemental Figure 1TGF-β1 promotes collagen type I and collagen type III increase after 24 h. NHDF cells were incubated with TGF-β1 at 0.01 ng/ml during 24 h (PDF 21 kb)
11302_2013_9368_MOESM2_ESM.pdf (74 kb)
Supplemental Figure 2PMA reduces Col1 and Col3 at nanomolar and micromolar concentrations. a NHDF cells were incubated with increasing concentrations of PMA during 24 h. Statistics was performed by ANOVA followed by Newman–Keuls post-test: Col1 **P < 0.01 and *P < 0.05 or Col3 ###P < 0.001, ##P < 0.01, and #P < 0.05 vs. non-stimulated control. Data represent means ± SEM of three independent experiments (PDF 74 kb)
11302_2013_9368_MOESM3_ESM.pptx (410 kb)
Supplemental Figure 3Validation of collagen1 and 3 antibodies. a Specificity of collagen antibodies; 1 μg of purified collagen1 and 3 were incubated with anti-Col1 and anti-Col3 antibodies. b Standard curves of purified collagen1 and collagen3 show a higher affinity for the anti-Col3 antibody than for the anti-Col1. Data represent means ± SEM. c Increasing loading of two different sets of protein extracts from NHDF were incubated with collagen1 and collagen3 antibodies (PPTX 410 kb)

Copyright information

© Springer Science+Business Media Dordrecht 2013

Authors and Affiliations

  • Miguel Perez-Aso
    • 1
  • Aránzazu Mediero
    • 1
  • Bruce N. Cronstein
    • 1
  1. 1.Division of Translational Medicine, Department of MedicineNew York University School of MedicineNew YorkUSA

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