Solid-tubulocystic variant of intrahepatic cholangiocarcinoma (ST-iCCA) is newly described entity characterized by two distinct histologic growth patterns: (1) solid sheets of tumor cells with focal n Show more
Solid-tubulocystic variant of intrahepatic cholangiocarcinoma (ST-iCCA) is newly described entity characterized by two distinct histologic growth patterns: (1) solid sheets of tumor cells with focal necrosis giving pseudopapillary appearance and (2) tubular or pseudoglandular structures containing pink, colloid-like material. Tumor cells are inhibin-positive and harbor NIPBL::NACC1 fusion gene. To date, only 28 cases of ST-iCCA have been documented. While prior molecular studies provided insights into ST-iCCA, genetic profiles of individual histologic components have not been explored. This study presents first transcriptomic analysis comparing the solid/pseudopapillary and pseudoglandular components of ST-iCCA. Two cases of histologically confirmed ST-iCCA were identified for RNA sequencing which was performed on solid/pseudopapillary component, pseudoglandular component, and normal tissue. Analysis revealed distinct gene expression profiles for each pattern. Solid/pseudopapillary component uniquely overexpressed DMRTA1, NEXMIF, PRDM6, SORCS3, and NALF, while pseudoglandular component exhibited unique overexpression of HRG, ITIH3, TAT, APOA2, CP, ALDOB, CPS1, F2, KHG1, SERPINC1, HPX, C9, ADGRF1, MUC21, SAA2, SPRR2A, SAA1, FGL1, CFHR1, and LBP. These findings establish unique gene signatures for these variants of ST-iCCA, providing potential biomarkers for differential diagnosis, prognosis and targeted therapy. The distinct genetic profiles may also uncover novel therapeutic targets to address the aggressive nature of ST-iCCA. Show less
Circulating metabolite levels are biomarkers for cardiovascular disease (CVD). Here we studied, association of rare variants and 226 serum lipoproteins, lipids and amino acids in 7,142 (discovery plus Show more
Circulating metabolite levels are biomarkers for cardiovascular disease (CVD). Here we studied, association of rare variants and 226 serum lipoproteins, lipids and amino acids in 7,142 (discovery plus follow-up) healthy participants. We leveraged the information from multiple metabolite measurements on the same participants to improve discovery in rare variant association analyses for gene-based and gene-set tests by incorporating correlated metabolites as covariates in the validation stage. Gene-based analysis corrected for the effective number of tests performed, confirmed established associations at APOB, APOC3, PAH, HAL and PCSK (p<1.32x10-7) and identified novel gene-trait associations at a lower stringency threshold with ACSL1, MYCN, FBXO36 and B4GALNT3 (p<2.5x10-6). Regulation of the pyruvate dehydrogenase (PDH) complex was associated for the first time, in gene-set analyses also corrected for effective number of tests, with IDL and LDL parameters, as well as circulating cholesterol (pMETASKAT<2.41x10-6). In conclusion, using an approach that leverages metabolite measurements obtained in the same participants, we identified novel loci and pathways involved in the regulation of these important metabolic biomarkers. As large-scale biobanks continue to amass sequencing and phenotypic information, analytical approaches such as ours will be useful to fully exploit the copious amounts of biological data generated in these efforts. Show less
Testosterone supplementation has been linked to increased cardiovascular disease risk in some observational studies. The causal role of testosterone can be investigated using a Mendelian randomization Show more
Testosterone supplementation has been linked to increased cardiovascular disease risk in some observational studies. The causal role of testosterone can be investigated using a Mendelian randomization approach. We assessed genetic associations of variants in two gene regions (SHBG and JMJD1C) with several cardiovascular risk factors (lipids, adiponectin, blood pressure, anthropometric traits) plus male pattern baldness, including control outcomes and potential mediators. We assessed genetic associations with coronary artery disease (CAD) risk in the CARDIoGRAMplusC4D consortium (171,191 individuals including 60,801 cases), and associations with CAD and ischaemic stroke risk in the UK Biobank (367,643 individuals including 25,352 CAD cases and 3650 ischaemic stroke cases). Genetic predictors of increased serum testosterone were associated with lipids, blood pressure, and height. There was some evidence of an association with risk of CAD (SHBG gene region: odds ratio (OR) 0.95 per 1 unit increase in log-transformed testosterone [95% confidence interval: 0.81-1.12, pβ―=β―0.55]; JMJD1C gene region: OR 1.24 [1.01-1.51, pβ―=β―0.04]) and ischaemic stroke both overall (SHBG: OR 1.05 [0.64, 1.73, pβ―=β―0.83]; JMJD1C: OR 2.52 [1.33, 4.77, pβ―=β―0.005]) and in men. However, associations with some control outcomes were in the opposite direction to that expected. Sex hormone-related mechanisms appear to be relevant to cardiovascular risk factors and for stroke (particularly for men). However, the extent that these findings are specifically informative about endogenous testosterone or testosterone supplementation is unclear. These findings underline a fundamental limitation for the use of Mendelian randomization where biological knowledge about the function of genetic variants is uncertain. Show less
Coronary artery disease (CAD) is one of the largest causes of death worldwide yet the traditional risk factors, although useful in identifying people at high risk, lack the desired predictive accuracy Show more
Coronary artery disease (CAD) is one of the largest causes of death worldwide yet the traditional risk factors, although useful in identifying people at high risk, lack the desired predictive accuracy. Techniques like quantitative plasma proteomics holds immense potential to identify newer markers and this study (conducted in three phases) was aimed to identify differentially expressed proteins in stable CAD patients. In the first (discovery) phase, plasma from CAD cases (angiographically proven) and controls were subjected to iTRAQ based proteomic analysis. Proteins found to be differentially expressed were then validated in the second and third (verification and validation) phases in larger number of (nβ=β546) samples. After multivariate logistic regression adjusting for confounding factors (age, diet, etc.), four proteins involved in the reverse cholesterol pathway (Apo A1, ApoA4, Apo C1 and albumin) along with diabetes and hypertension were found to be significantly associated with CAD and could account for approximately 88% of the cases as revealed by ROC analysis. The maximum odds ratio was found to be 6.70 for albumin (pβ<β0.0001), followed by Apo AI (5.07, pβ<β0.0001), Apo CI (4.03, pβ=β0.001), and Apo AIV (2.63, pβ=β0.003). Down-regulation of apolipoproteins and albumin implicates the impairment of reverse cholesterol pathway in CAD. Show less