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Arne Warth,Esther Herpel,Sabine Krysa,Hans Hoffmann,Philipp A. Schnabel,Peter Schirmacher,Gunhild Mechtersheimer,Hendrik Bläker 생화학분자생물학회 2009 Experimental and molecular medicine Vol.41 No.5
Pulmonary carcinoids are infrequent neoplasms of the lung that normally display a less aggressive biological behavior compared to small cell and non-small cell lung cancers. Approximately 15-25% of carcinoids, in particular atypical carcinoids, show lymph node metastasis and have a worse prognosis than their non-metastasized counterparts. To date, there is no morphological or molecular marker that may help to differentiate between carcinoids that metastasize and carcinoids of identical differentiation that show only local tumor growth. In this study, we analyzed 7 metastasized and 10 non-metastasized pulmonary carcinoids for chromosomal and microsatellite instability in order to determine whether microsatellite instability or chromosomal imbalances are associated with metastasis. Due to the rare occurrence of metastasized carcinoids we compared our results of chromosomal instability with the hitherto published comparative genomic hybridization (CGH) profiles of pulmonary carcinoids, for which information about the absence or presence of metastasis was available. While microsatellite instability was not detected we found chromosomal instability as a common event in pulmonary carcinoids with an increase of frequency and extent of chromosomal alterations in atypical and metastasized carcinoids. These findings are in accordance with the collected and herein compiled data of previous studies and indicate increasing numbers of chromosomal imbalances to play a role in the sequential process of tumor development and metastasis. Pulmonary carcinoids are infrequent neoplasms of the lung that normally display a less aggressive biological behavior compared to small cell and non-small cell lung cancers. Approximately 15-25% of carcinoids, in particular atypical carcinoids, show lymph node metastasis and have a worse prognosis than their non-metastasized counterparts. To date, there is no morphological or molecular marker that may help to differentiate between carcinoids that metastasize and carcinoids of identical differentiation that show only local tumor growth. In this study, we analyzed 7 metastasized and 10 non-metastasized pulmonary carcinoids for chromosomal and microsatellite instability in order to determine whether microsatellite instability or chromosomal imbalances are associated with metastasis. Due to the rare occurrence of metastasized carcinoids we compared our results of chromosomal instability with the hitherto published comparative genomic hybridization (CGH) profiles of pulmonary carcinoids, for which information about the absence or presence of metastasis was available. While microsatellite instability was not detected we found chromosomal instability as a common event in pulmonary carcinoids with an increase of frequency and extent of chromosomal alterations in atypical and metastasized carcinoids. These findings are in accordance with the collected and herein compiled data of previous studies and indicate increasing numbers of chromosomal imbalances to play a role in the sequential process of tumor development and metastasis.
이은주,Prati Bajracharya,이동목,강세원,이용석,이현정,홍성구,장종수,김재우,Robert D. Schnabel,Jeremy F. Taylor,최인호 한국유전학회 2012 Genes & Genomics Vol.34 No.2
The molecular mechanisms underlying myogenic satellite cells (MSCs) differentiation into myotube-formed cells (MFCs) and transdifferentiation into adipocyte-like cells (ALCs) are unclear. As a step towards understanding the molecular mechanisms underlying MSC differentiation and transdifferentiation,we attempted to identify the genes differentially expressed during differentiation and transdifferentiation using gene microarray analysis (GMA). Thirty oligonucleotide arrays were used with two technical replicates and nine and six biological replicates for MFCs vs. MSCs and ALCs vs. MSCs, respectively,to contrast expression profile differences. GMA identified 1,224 differentially expressed genes by at least 2-fold during differentiation and transdifferentiation of MSCs. To select the highly expressed genes for future functional study, genes with a 4-fold expression difference were selected for validation by real time RT-PCR and approximately 96.9% of the genes were validated. The up-regulation of marker genes for myogenesis (MYL2, MYH3) and adipogenesis (PPARγ, and FABP4) was observed during the differentiation and transdifferentiation of MSCs into MFCs and ALCs, respectively. KOG analysis revealed that the most of the genes up-regulated during differentiation and transdifferentiation of MSCs were related to signal transduction. Again the exact location of 109 differentially expressed genes by 4-fold were analyzed by chromosome mapping. Among those, co-localization of 29 genes up-regulated during transdifferentiation with QTL for marbling score and intramuscular fat percentage supports the involvement of these genes in cellular transdifferentiation. Interestingly, some genes with unknown function were also identified during the process. Functional studies on these genes may unfold the molecular mechanisms controlling MSC differentiation and transdifferentiation.
Gerrit Wolters-Eisfeld,Baris Mercanoglu,Bianca T. Hofmann,Thomas Wolpers,Claudia Schnabel,Sönke Harder,Pascal Steffen,Kai Bachmann,Babett Steglich,Jörg Schrader,Nicola Gagliani,Hartmut Schlüter,Cenap 생화학분자생물학회 2018 Experimental and molecular medicine Vol.50 No.-
Cosmc is ubiquitously expressed and acts as a specific molecular chaperone assisting the folding and stability of core 1 synthase. Thus, it plays a crucial role in the biosynthesis of O-linked glycosylation of proteins. Here, we show that ablation of Cosmc in the exocrine pancreas of mice causes expression of truncated O-glycans (Tn antigen), resulting in exocrine pancreatic insufficiency with decreased activities of digestive enzymes and diabetes. To understand the molecular causes of the pleiotropic phenotype, we used Vicia villosa agglutinin to enrich Tn antigen-modified proteins from Cosmc-KO pancreatic lysates and performed a proteomic analysis. Interestingly, a variety of proteins were identified, of which bile salt-activated lipase (also denoted carboxyl-ester lipase, Cel) was the most abundant. In humans, frameshift mutations in CEL cause maturity-onset diabetes of the young type 8 (MODY8), a monogenic syndrome of diabetes and pancreatic exocrine dysfunction. Here, we provide data suggesting that differentially Oglycosylated Cel could negatively affect beta cell function. Taken together, our findings demonstrate the importance of correct O-glycan formation for normal exocrine and endocrine pancreatic function, implying that aberrant Oglycans might be relevant for pathogenic mechanisms of the pancreas.
Lee, E.J.,Lee, H.J.,Kamli, M.R.,Pokharel, S.,Bhat, A.R.,Lee, Y.H.,Choi, B.H.,Chun, T.,Kang, S.W.,Lee, Y.S.,Kim, J.W.,Schnabel, R.D.,Taylor, J.F.,Choi, I. Academic Press 2012 Genomics Vol.100 No.3
We report a systematic study of gene expression during myogenesis and transdifferentiation in four bovine muscle tissues and of adipogenesis in three bovine fat tissues using DNA microarray analysis. One hundred hybridizations were performed and 7245 genes of known and unknown function were identified as being differentially expressed. Supervised hierarchical cluster analysis of gene expression patterns revealed the tissue specificity of genes. A close relationship in global gene expression observed for adipocyte-like cells derived from muscle and adipocytes derived from intramuscular fat suggests a common origin for these cells. The role of transthyretin in myogenesis is a novel finding. Different genes were highly induced during the transdifferentiation of myogenic satellite cells and in the adipogenesis of preadipocytes, indicating the involvement of different molecular mechanisms in these processes. Induction of CD36 and FABP4 expression in adipocyte-like cells and adipocytes may share a common pathway.