Local Medial Microenvironment Directs Phenotypic Modulation of Smooth Muscle Cells After Experimental Renal Transplantation

Smooth muscle cells (SMCs) play a key role in the pathogenesis of occlusive vascular diseases, including transplant vasculopathy. Neointimal SMCs in experimental renal transplant vasculopathy are graft‐derived. We propose that neointimal SMCs in renal allografts are derived from the vascular media resulting from a transplantation‐induced phenotypic switch. We examined the molecular changes in the medial microenvironment that lead to phenotypic modulation of SMCs in rat renal allograft arteries with neointimal lesions. Dark Agouti donor kidneys were transplanted into Wistar Furth recipients and recovered at day 56. Neointimal and medial layers were isolated using laser microdissection. Gene expression was analyzed using low‐density arrays and confirmed by immunostaining. In allografts, neointimal SMCs expressed increased levels of Tgf β1 and Pdgfb . In medial allograft SMCs, gene expression of Ctgf, Tgf β1 and Pdgfrb was upregulated. Gene expression of Klf4 was upregulated as well, while expression of Sm22α was downregulated. Finally, PDGF‐BB‐stimulated phenotypically modulated SMCs, as evidenced by reduced contractile function in vitro which was accompanied by increased Klf4 and Col1α1, and reduced α‐Sma and Sm22α expression. In transplant vasculopathy, neointimal PDGF‐BB induces phenotypic modulation of medial SMCs, through upregulation of KLF4 in the media to contribute to (further) expansion of the neointima.