Peritoneal morphological and functional changes associated with platelet-derived growth factor B

doi:10.1093/ndt/gfn498

NDT Advance Access originally published online on September 4, 2008
Nephrology Dialysis Transplantation 2009 24(2):448-457; doi:10.1093/ndt/gfn498

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Peritoneal morphological and functional changes associated with platelet-derived growth factor B

Davide Cina¹, Pranali Patel¹, Jessica C. Bethune¹, Jessica Thoma¹, Juan Carlos Rodriguez-Lecompte², Catherine M. Hoff³, Limin Liu¹ and Peter J. Margetts¹

¹ Department of Medicine, McMaster University, Hamilton, ON ² Department of Veterinary Medicine, University of Manitoba, Winnipeg, MB, Canada ³ Renal Division, Baxter Healthcare Corporation, IL, USA

Correspondence and offprint requests to: Peter J. Margetts, 50 Charlton Ave E., Hamilton, ON, L8N 4A6 Canada. Tel: +1-905-522-1155, Ext. 32299; Fax: +1-905-540-6589; E-mail: margetts{at}mcmaster.ca

Abstract

Background. Morphological changes associated with long-termperitoneal dialysis (PD) include increased vascular surfacearea due to angiogenesis, submesothelial fibrosis and epithelialmesenchymal transition. Platelet-derived growth factor (PDGF)has been associated with all of these phenomena, and is a prototypical‘response to injury’ growth factor.

Methods. Rats received an intraperitoneal injection of adenoviralvector expressing PDGF-B. At sacrifice, we analysed the structureand function of the peritoneal membrane. Gene expression inthe peritoneal tissue was assessed for changes suggestive ofepithelial mesenchymal transition.

Results. Over-expression of PDGF in the rat peritoneum led tosignificant angiogenesis, cellular proliferation and submesothelialthickening. Although PDGF induced expression of transforminggrowth factor β, there was a lack of activation of thisgrowth factor, and we believe that this explains the lack ofsignificant collagen accumulation observed by a hydroxyprolineassay. Despite evidence of angiogenesis and subsequent increasedsolute transport, we observed only a transient, non-significantimpact on ultrafiltration function. This suggests that increasedvascular surface area is necessary, but not sufficient, to produceultrafiltration dysfunction. There was no evidence of epithelialmesenchymal transition observed either in regulation of associatedgenes such as Snail or E-Cadherin or in the lack of dual-labelledepithelial and mesenchymal cells on immunofluorescence. Mesothelialcells exposed to PDGF-B demonstrated increased collagen geneexpression.

Conclusions. PDGF-B induced angiogenesis without fibrosis inthe peritoneum. The lack of significant ultrafiltration dysfunctionand epithelial mesenchymal transition, as observed in patientson PD, suggests that PDGF-B may play a role, but is not theintegral component, in response to peritoneal injury.

Keywords: adenovirus; angiogenesis; fibrosis; peritoneal dialysis; platelet-derived growth factor

Received for publication: 15. 7.08
Accepted in revised form: 8. 8.08

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