BACKGROUND: Expression of transforming growth factor-beta1 (TGF-beta1) is central to vascular repair due to its effects on smooth muscle cell, monocyte/macrophage, leucocyte, and extracellular matrix accumulation and proliferation. Genetic polymorphism at position +915 of the TGF-beta1 gene determines the degree of cytokine production in response to injury. We investigated this allelic variation on the development of cardiac transplant-related coronary vasculopathy (CV). METHODS: Using sequence-specific primers to the TGF-beta1 gene region of interest, a polymerase chain reaction (PCR) and gel electrophoresis identified the genotype in 129 cardiac transplant recipients. An association was sought between the presence of a high- (GG) or low/intermediate-producing (CC/GC) genotype and the development of coronary vasculopathy diagnosed by coronary angiography. RESULTS: C allele carriers made up 10.9% of the recipient population but were significantly less likely to develop coronary vasculopathy (p = 0. 0361). Mean time to diagnosis was 1240.5 days in G homozygotes relative to 2266.5 days in C allele carriers (p = 0.002). Pre- and 1-year posttransplant clinical variables were equivalent between the 2 groups. Multivariate analysis identified the GG genotype (p = 0. 042, hazard ratio 3.01, [95% CI, 1.056-10.99]), donor age (p = 0.002, hazard ratio 1.063, [95% CI, 1.029-1.097]), and number of acute-rejection episodes of grade 3 or greater in the first year (p = 0.029, hazard ratio 1.11, [95% CI, 1.05-1.26]) as significant predictors of vasculopathy. CONCLUSION: This study demonstrates a correlation between a high-producing TGF-beta1 genotype and an earlier onset of cardiac-transplant coronary vasculopathy. This gives an important insight into the pathophysiology of cardiac transplant vasculopathy and suggests new treatment options.
BACKGROUND: Expression of transforming growth factor-beta1 (TGF-beta1) is central to vascular repair due to its effects on smooth muscle cell, monocyte/macrophage, leucocyte, and extracellular matrix accumulation and proliferation. Genetic polymorphism at position +915 of the TGF-beta1 gene determines the degree of cytokine production in response to injury. We investigated this allelic variation on the development of cardiac transplant-related coronary vasculopathy (CV). METHODS: Using sequence-specific primers to the TGF-beta1 gene region of interest, a polymerase chain reaction (PCR) and gel electrophoresis identified the genotype in 129 cardiac transplant recipients. An association was sought between the presence of a high- (GG) or low/intermediate-producing (CC/GC) genotype and the development of coronary vasculopathy diagnosed by coronary angiography. RESULTS: C allele carriers made up 10.9% of the recipient population but were significantly less likely to develop coronary vasculopathy (p = 0. 0361). Mean time to diagnosis was 1240.5 days in G homozygotes relative to 2266.5 days in C allele carriers (p = 0.002). Pre- and 1-year posttransplant clinical variables were equivalent between the 2 groups. Multivariate analysis identified the GG genotype (p = 0. 042, hazard ratio 3.01, [95% CI, 1.056-10.99]), donor age (p = 0.002, hazard ratio 1.063, [95% CI, 1.029-1.097]), and number of acute-rejection episodes of grade 3 or greater in the first year (p = 0.029, hazard ratio 1.11, [95% CI, 1.05-1.26]) as significant predictors of vasculopathy. CONCLUSION: This study demonstrates a correlation between a high-producing TGF-beta1 genotype and an earlier onset of cardiac-transplant coronary vasculopathy. This gives an important insight into the pathophysiology of cardiac transplant vasculopathy and suggests new treatment options.
Authors: Raymond L Benza; Christopher S Coffey; Dawn M Pekarek; Joseph P Barchue; Jose A Tallaj; Michael J Passineau; Hernan E Grenett Journal: J Heart Lung Transplant Date: 2009-10 Impact factor: 10.247
Authors: Jessica van Setten; Evangeline G Warmerdam; Olivier Q Groot; Nicolaas de Jonge; Brendan Keating; Folkert W Asselbergs Journal: Transplant Direct Date: 2019-01-21