Browsing by Author "Ross, David A."

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    Circulating cell-free messenger RNA secretome characterization of primary sclerosing cholangitis
    (Wolters Kluwer, 2023-05-23) Chalasan, Naga; Vuppalanchi, Raj; Lammert, Craig; Gawrieh, Samer; Braun, Jerome V.; Zhuang, Jiali; Ibarra, Arkaitz; Ross, David A.; Nerenberg, Michael; Quake, Stephen R.; Sninsky, John J.; Toden, Shusuke; Medicine, School of Medicine
    Background: Primary sclerosing cholangitis (PSC) is a rare chronic cholestatic liver disease characterized by multifocal bile duct strictures. To date, underlying molecular mechanisms of PSC remain unclear, and therapeutic options are limited. Methods: We performed cell-free messenger RNA (cf-mRNA) sequencing to characterize the circulating transcriptome of PSC and noninvasively investigate potentially bioactive signals that are associated with PSC. Serum cf-mRNA profiles were compared among 50 individuals with PSC, 20 healthy controls, and 235 individuals with NAFLD. Tissue and cell type-of-origin genes that are dysregulated in subjects with PSC were evaluated. Subsequently, diagnostic classifiers were developed using PSC dysregulated cf-mRNA genes. Results: Differential expression analysis of the cf-mRNA transcriptomes of PSC and healthy controls resulted in identification of 1407 dysregulated genes. Furthermore, differentially expressed genes between PSC and healthy controls or NAFLD shared common genes known to be involved in liver pathophysiology. In particular, genes from liver- and specific cell type-origin, including hepatocyte, HSCs, and KCs, were highly abundant in cf-mRNA of subjects with PSC. Gene cluster analysis revealed that liver-specific genes dysregulated in PSC form a distinct cluster, which corresponded to a subset of the PSC subject population. Finally, we developed a cf-mRNA diagnostic classifier using liver-specific genes that discriminated PSC from healthy control subjects using gene transcripts of liver origin. Conclusions: Blood-based whole-transcriptome cf-mRNA profiling revealed high abundance of liver-specific genes in sera of subjects with PSC, which may be used to diagnose patients with PSC. We identified several unique cf-mRNA profiles of subjects with PSC. These findings may also have utility for noninvasive molecular stratification of subjects with PSC for pharmacotherapy safety and response studies.
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    Dr Nurnberger and Colleagues Reply
    (Physicians Postgraduate Press, Inc., 2019-04-09) Jr., John I. Nurnberger; Austin, Jehannine; Berrettini, Wade H.; Besterman, Aaron D.; DeLisi, Lynn E.; Grice, Dorothy E.; Kennedy, James L.; Moreno-De-Luca, Daniel; Potash, James B.; Ross, David A.; Psychiatry, School of Medicine
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    What Should a Psychiatrist Know About Genetics? Review and Recommendations From the Residency Education Committee of the International Society of Psychiatric Genetics.
    (CME Institute of Ph​ysicians P​ostgraduate Press, Inc., 2018-11-27) Nurnberger, John I., Jr.; Austin, Jehannine; Berrettini, Wade H.; Besterman, Aaron D.; DeLisi, Lynn E.; Grice, Dorothy E.; Kennedy, James L.; Moreno-De-Luca, Daniel; Potash, James B.; Ross, David A.; Schulze, Thomas G.; Zai, Gwyneth; Psychiatry, School of Medicine
    The International Society of Psychiatric Genetics (ISPG) created a Residency Education Committee with the purpose of identifying key genetic knowledge that should be taught in psychiatric training programs. Thirteen committee members were appointed by the ISPG Board of Directors, based on varied training, expertise, gender, and national origin. The Committee has met quarterly for the past 2 years, with periodic reports to the Board and to the members of the Society. The information summarized includes the existing literature in the field of psychiatric genetics and the output of ongoing large genomics consortia. An outline of clinically relevant areas of genetic knowledge was developed, circulated, and approved. This document was expanded and annotated with appropriate references, and the manuscript was developed. Specific information regarding the contribution of common and rare genetic variants to major psychiatric disorders and treatment response is now available. Current challenges include the following: (1) Genetic testing is recommended in the evaluation of autism and intellectual disability, but its use is limited in current clinical practice. (2) Commercial pharmacogenomic testing is widely available, but its utility has not yet been clearly established. (3) Other methods, such as whole exome and whole genome sequencing, will soon be clinically applicable. The need for informed genetic counseling in psychiatry is greater than ever before, knowledge in the field is rapidly growing, and genetic education should become an integral part of psychiatric training.