DNA methylation episignature for Witteveen-Kolk syndrome due to SIN3A haploinsufficiency.

PURPOSE: Witteveen-Kolk syndrome (WITKOS) is a rare, autosomal dominant neurodevelopmental disorder caused by heterozygous loss-of-function alterations in the SIN3A gene. WITKOS has variable expressivity that commonly overlaps with other neurodevelopmental disorders. In this study, we characterized a distinct DNA methylation epigenetic signature (episignature) distinguishing WITKOS from unaffected individuals as well as individuals with other neurodevelopmental disorders with episignatures and described 9 previously unpublished individuals with SIN3A haploinsufficiency. METHODS: We studied the phenotypic characteristics and the genome-wide DNA methylation in the peripheral blood samples of 20 individuals with heterozygous alterations in SIN3A. A total of 14 samples were used for the identification of the episignature and building of a predictive diagnostic biomarker, whereas the diagnostic model was used to investigate the methylation pattern of the remaining 6 samples. RESULTS: A predominantly hypomethylated DNA methylation profile specific to WITKOS was identified, and the classifier model was able to diagnose a previously unresolved test case. The episignature was sensitive enough to detect individuals with varying degrees of phenotypic severity carrying SIN3A haploinsufficient variants. CONCLUSION: We identified a novel, robust episignature in WITKOS due to SIN3A haploinsufficiency. This episignature has the potential to aid identification and diagnosis of individuals with WITKOS.

Secretion of MUC5AC mucin from pancreatic cancer cells in response to forskolin and VIP.

MUC5AC mucin is not expressed in normal pancreas but is expressed in tumors. Little is known about the mechanisms that lead to this atypical expression. In this study, we demonstrate that stimulation of adenylyl cyclase and the protein kinase A (PKA) pathway by forskolin and vasoactive intestinal peptide (VIP) increased MUC5AC antigen expression and release from pancreatic cancer cells. Stimulation of the PKA pathway also increased MUC5AC mRNA. When SW1990 pancreatic cancer cells were grown on porous membranes they released MUC5AC mucins apically in response to VIP (10(-7) M) applied to their basolateral surfaces. SW1990 cells, as have been reported for other pancreatic cancer cells, have high affinity (<10(-7) M) VIP receptors and low affinity (>10(-6) M) secretin receptors. We also showed that four antibodies (CLH2, 21M1, 45M1, and Nd2) react with MUC5AC antigen in different cellular compartments of both tissues and cultured cells. In conclusion, the PKA pathway may contribute to the up-regulation of MUC5AC expression seen in pancreatic tumors.