Association of Clinical Rejection Versus Rejection on Protocol Biopsy With Cardiac Allograft Vasculopathy in Pediatric Heart Transplant Recipients.

BACKGROUND: Two or more early rejections (<1 y) or any late acute rejection (>1 y) have been associated with coronary artery vasculopathy (CAV) in pediatric heart transplant (HT) recipients. We hypothesized that clinical rejection defined by concurrent new-onset heart failure or left ventricular systolic dysfunction is more strongly associated with future CAV than rejection diagnosed on protocol biopsy. METHODS: We identified all subjects <21 years old who received first HT at Boston Children's Hospital during 1986-2015 with at least 1 post-HT coronary angiogram. CAV was diagnosed using 2010 International Society for Heart and Lung Transplantation guidelines. Time to CAV diagnosis was assessed using a Cox model with occurrence of clinical rejection analyzed as a time-varying covariate. RESULTS: Of 228 study subjects, 106 remained rejection-free, 77 had rejection diagnosed only on protocol biopsy (≥2R cellular or antibody-mediated), and 45 had a clinical rejection. Subjects with rejection diagnosed only on protocol biopsy were not at higher risk of CAV (hazard ratio [HR] 1.09, 95% confidence interval [CI]: 0.54-2.09). In contrast, clinical rejection was significantly associated with risk of CAV (HR 4.84, 95% CI: 2.99-7.83). Late rejection was associated with a higher risk of CAV (HR 4.27, 95% CI: 2.42-7.51) if it was clinical rejection but not if it was diagnosed on protocol biopsy (HR 0.83, 95% CI: 0.51-1.37). CONCLUSIONS: Clinical rejection poses a far greater risk for future CAV than rejection on protocol biopsy in pediatric HT recipients. Preventing CAV should therefore become the focus of medical management after initial treatment and resolution of clinical rejection.

Functionally compromised CHD7 alleles in patients with isolated GnRH deficiency.

Inactivating mutations in chromodomain helicase DNA binding protein 7 (CHD7) cause CHARGE syndrome, a severe multiorgan system disorder of which Isolated gonadotropin-releasing hormone (GnRH) deficiency (IGD) is a minor feature. Recent reports have described predominantly missense CHD7 alleles in IGD patients, but it is unclear if these alleles are relevant to causality or overall genetic burden of Kallmann syndrome (KS) and normosmic form of IGD. To address this question, we sequenced CHD7 in 783 well-phenotyped IGD patients lacking full CHARGE features; we identified nonsynonymous rare sequence variants in 5.2% of the IGD cohort (73% missense and 27% splice variants). Functional analyses in zebrafish using a surrogate otolith assay of a representative set of these CHD7 alleles showed that rare sequence variants observed in controls showed no altered function. In contrast, 75% of the IGD-associated alleles were deleterious and resulted in both KS and normosmic IGD. In two families, pathogenic mutations in CHD7 coexisted with mutations in other known IGD genes. Taken together, our data suggest that rare deleterious CHD7 alleles contribute to the mutational burden of patients with both KS and normosmic forms of IGD in the absence of full CHARGE syndrome. These findings (i) implicate a unique role or preferential sensitivity for CHD7 in the ontogeny of GnRH neurons, (ii) reiterate the emerging genetic complexity of this family of IGD disorders, and (iii) demonstrate how the coordinated use of well-phenotyped cohorts, families, and functional studies can inform genetic architecture and provide insights into the developmental biology of cellular systems.