Your search keyword '"Paul D. Soloway"' showing total 9 results

1. Remodeling of gene regulatory networks underlying thermogenic stimuli-induced adipose beiging

Author

Seoyeon Lee, Abigail M. Benvie, Hui Gyu Park, Roman Spektor, Blaine Harlan, J. Thomas Brenna, Daniel C. Berry, and Paul D. Soloway

Subjects

Biology (General), QH301-705.5

Abstract

Adipocyte beiging is a thermogenic response to cold exposure and b3-adrenergic receptor agonists, which exert their effects by distinct and common molecular mechanisms that control chromatin accessibility and lipid metabolism.

Published

2022

2. Ado-Mediated Depletion of Taurine Impairs Mitochondrial Respiratory Capacity and Alters the Chromatin Landscape of Inguinal Adipose Tissue

Author

Pei-Yin Tsai, Bo Shui, Seoyeon Lee, Yang Liu, Yue Qu, Chloe Cheng, Kaydine Edwards, Callie Wong, Ryan Meng-Killeen, Paul D. Soloway, and Joeva J. Barrow

Subjects

taurine, obesity, non-shivering thermogenesis, adipocytes, mitochondrial respiration, cysteamine dioxygenase, Nutrition. Foods and food supply, TX341-641

Abstract

Non-shivering thermogenesis (NST) has strong potential to combat obesity; however, a safe molecular approach to activate this process has not yet been identified. The sulfur amino acid taurine has the ability to safely activate NST and confer protection against obesity and metabolic disease in both mice and humans, but the mechanism of this action is unknown. In this study, we discover that a suite of taurine biosynthetic enzymes, especially that of cysteamine dioxygenase (ADO), significantly increases in response to β3 adrenergic signaling in inguinal adipose tissue (IWAT) in order to increase intracellular concentrations of taurine. We further show that ADO is critical for thermogenic mitochondrial respiratory function as its ablation in adipocytes significantly reduces taurine levels, which leads to declines in mitochondrial oxygen consumption rates. Finally, we demonstrate via assay for transposase-accessible chromatin with sequencing (ATAC-seq) that taurine supplementation in beige adipocytes has the ability to remodel the chromatin landscape to increase the chromatin accessibility and transcription of genes, such as glucose-6-phosphate isomerase 1 (Gpi1), which are critical for NST. Taken together, our studies highlight a potential mechanism for taurine in the activation of NST that can be leveraged toward the treatment of obesity and metabolic disease.

Published

2023

3. Chemical, Molecular, and Single-nucleus Analysis Reveal Chondroitin Sulfate Proteoglycan Aberrancy in Fibrolamellar Carcinoma

Author

Adam B. Francisco, Jine Li, Alaa R. Farghli, Matt Kanke, Bo Shui, Paul R. Munn, Jennifer K. Grenier, Paul D. Soloway, Zhangjie Wang, Lola M. Reid, Jian Liu, and Praveen Sethupathy

Abstract

Fibrolamellar carcinoma (FLC) is an aggressive liver cancer with no effective therapeutic options. The extracellular environment of FLC tumors is poorly characterized and may contribute to cancer growth and/or metastasis. To bridge this knowledge gap, we assessed pathways relevant to proteoglycans, a major component of the extracellular matrix. We first analyzed gene expression data from FLC and nonmalignant liver tissue (n = 27) to identify changes in glycosaminoglycan (GAG) biosynthesis pathways and found that genes associated with production of chondroitin sulfate, but not other GAGs, are significantly increased by 8-fold. We then implemented a novel LC/MS-MS based method to quantify the abundance of different types of GAGs in patient tumors (n = 16) and found that chondroitin sulfate is significantly more abundant in FLC tumors by 6-fold. Upon further analysis of GAG-associated proteins, we found that versican (VCAN) expression is significantly upregulated at the mRNA and protein levels, the latter of which was validated by IHC. Finally, we performed single-cell assay for transposase-accessible chromatin sequencing on FLC tumors (n = 3), which revealed for the first time the different cell types in FLC tumors and also showed that VCAN is likely produced not only from FLC tumor epithelial cells but also activated stellate cells. Our results reveal a pathologic aberrancy in chondroitin (but not heparan) sulfate proteoglycans in FLC and highlight a potential role for activated stellate cells. Significance: This study leverages a multi-disciplinary approach, including state-of-the-art chemical analyses and cutting-edge single-cell genomic technologies, to identify for the first time a marked chondroitin sulfate aberrancy in FLC that could open novel therapeutic avenues in the future.

Published

2022

4. Supplementary Data Figures S1-S5 from Chemical, Molecular, and Single-nucleus Analysis Reveal Chondroitin Sulfate Proteoglycan Aberrancy in Fibrolamellar Carcinoma

Author

Praveen Sethupathy, Jian Liu, Lola M. Reid, Zhangjie Wang, Paul D. Soloway, Jennifer K. Grenier, Paul R. Munn, Bo Shui, Matt Kanke, Alaa R. Farghli, Jine Li, and Adam B. Francisco

Abstract

All supplemental figures with legends.

Published

2023

5. Data from Chemical, Molecular, and Single-nucleus Analysis Reveal Chondroitin Sulfate Proteoglycan Aberrancy in Fibrolamellar Carcinoma

Author

Praveen Sethupathy, Jian Liu, Lola M. Reid, Zhangjie Wang, Paul D. Soloway, Jennifer K. Grenier, Paul R. Munn, Bo Shui, Matt Kanke, Alaa R. Farghli, Jine Li, and Adam B. Francisco

Abstract

Fibrolamellar carcinoma (FLC) is an aggressive liver cancer with no effective therapeutic options. The extracellular environment of FLC tumors is poorly characterized and may contribute to cancer growth and/or metastasis. To bridge this knowledge gap, we assessed pathways relevant to proteoglycans, a major component of the extracellular matrix. We first analyzed gene expression data from FLC and nonmalignant liver tissue (n = 27) to identify changes in glycosaminoglycan (GAG) biosynthesis pathways and found that genes associated with production of chondroitin sulfate, but not other GAGs, are significantly increased by 8-fold. We then implemented a novel LC/MS-MS based method to quantify the abundance of different types of GAGs in patient tumors (n = 16) and found that chondroitin sulfate is significantly more abundant in FLC tumors by 6-fold. Upon further analysis of GAG-associated proteins, we found that versican (VCAN) expression is significantly upregulated at the mRNA and protein levels, the latter of which was validated by IHC. Finally, we performed single-cell assay for transposase-accessible chromatin sequencing on FLC tumors (n = 3), which revealed for the first time the different cell types in FLC tumors and also showed that VCAN is likely produced not only from FLC tumor epithelial cells but also activated stellate cells. Our results reveal a pathologic aberrancy in chondroitin (but not heparan) sulfate proteoglycans in FLC and highlight a potential role for activated stellate cells.Significance:This study leverages a multi-disciplinary approach, including state-of-the-art chemical analyses and cutting-edge single-cell genomic technologies, to identify for the first time a marked chondroitin sulfate aberrancy in FLC that could open novel therapeutic avenues in the future.

Published

2023

6. Chemical, molecular, and single cell analysis reveal chondroitin sulfate proteoglycan aberrancy in fibrolamellar carcinoma

Author

Adam B. Francisco, Jine Li, Alaa R. Farghli, Matt Kanke, Bo Shui, Paul D. Soloway, Zhangjie Wang, Lola M. Reid, Jian Liu, and Praveen Sethupathy

Subjects

hemic and lymphatic diseases

Abstract

Fibrolamellar carcinoma (FLC) is an aggressive liver cancer with no effective therapeutic options. The extracellular environment of FLC tumors is poorly characterized and may contribute to cancer growth and/or metastasis. To bridge this knowledge gap, we assessed pathways relevant to proteoglycans, a major component of the extracellular matrix. We first analyzed gene expression data from FLC and non-malignant liver tissue (n=27) to identify changes in glycosaminoglycan (GAG) biosynthesis pathways and found that genes associated with production of chondroitin sulfate, but not other GAGs, are significantly increased by 8-fold. We then implemented a novel LC-MS/MS based method to quantify the abundance of different types of GAGs in patient tumors (n=16) and found that chondroitin sulfate is significantly more abundant in FLC tumors by 6-fold. Upon further analysis of GAG-associated proteins we found that versican (VCAN) expression is significantly up-regulated at the mRNA and protein levels, the latter of which was validated by immunohistochemistry. Finally, we performed single-cell assay for transposon-accessible chromatin-sequencing on FLC tumors (n=3), which revealed for the first time the different cell types in FLC tumors and also showed that VCAN is likely produced not only from FLC tumor epithelial cells but also activated stellate cells. Our results reveal a pathologic aberrancy in chondroitin (but not heparan) sulfate proteoglycans in FLC and highlight a potential role for activated stellate cells.SignificanceThis study leverages a multi-disciplinary approach, including state-of-the-art chemical analyses and cutting-edge single-cell genomic technologies, to identify for the first time a marked chondroitin sulfate aberrancy in fibrolamellar carcinoma (FLC) that could open novel therapeutic avenues in the future.

Published

2021

7. Single-cell chromatin accessibility and lipid profiling reveals SCD1-dependent metabolic shift in adipocytes induced by bariatric surgery

Author

Blaine Harlan, Hui Gyu Park, Roman Spektor, Bethany Cummings, J. Thomas Brenna, and Paul D. Soloway

Subjects

Physiology, Science, Immune Cells, Immunology, Antigen-Presenting Cells, Gene Expression, Bariatric Surgery, Biochemistry, Mice, Animal Cells, Gastrectomy, parasitic diseases, Weight Loss, Adipocytes, Medicine and Health Sciences, Genetics, Animals, Gene Regulation, Obesity, Connective Tissue Cells, Multidisciplinary, Chromosome Biology, Fatty Acids, Body Weight, Biology and Life Sciences, Thermogenesis, Cell Biology, Lipids, Chromatin, Biological Tissue, Adipose Tissue, Physiological Parameters, Diabetes Mellitus, Type 2, Connective Tissue, Medicine, Epigenetics, Anatomy, Cellular Types, Physiological Processes, Research Article

Abstract

Obesity promotes type 2 diabetes and cardiometabolic pathologies. Vertical sleeve gastrectomy (VSG) is used to treat obesity resulting in long-term weight loss and health improvements that precede weight loss; however, the mechanisms underlying the immediate benefits remain incompletely understood. Because adipose plays a crucial role in energy homeostasis and utilization, we hypothesized that VSG exerts its influences, in part, by modulating adipose functional states. We applied single-cell ATAC sequencing and lipid profiling to inguinal and epididymal adipose depots from mice that received sham surgery or VSG. We observed depot-specific cellular composition and chromatin accessibility patterns that were altered by VSG. Specifically, accessibility at Scd1, a fatty acid desaturase, was substantially reduced after VSG in mature adipocytes of inguinal but not epididymal depots. This was accompanied by reduced accumulation of SCD1-produced unsaturated fatty acids. Given these findings and reports that reductions in Scd1 attenuate obesity and insulin resistance our results suggest VSG exerts its beneficial effects through an inguinal depot-specific reduction of SCD1 activity.

Published

2021

8. Remodeling of gene regulatory networks underlying thermogenic stimuli-induced adipose beiging

Author

Seoyeon, Lee, Abigail M, Benvie, Hui Gyu, Park, Roman, Spektor, Blaine, Harlan, J Thomas, Brenna, Daniel C, Berry, and Paul D, Soloway

Subjects

Mice, Adipose Tissue, Animals, Gene Regulatory Networks, Thermogenesis, Adipocytes, Beige, Chromatin

Abstract

Beige adipocytes are induced by cold temperatures or β3-adrenergic receptor (Adrb3) agonists. They create heat through glucose and fatty acid (FA) oxidation, conferring metabolic benefits. The distinct and shared mechanisms by which these treatments induce beiging are unknown. Here, we perform single-nucleus assay for transposase-accessible chromatin sequencing (snATAC-seq) on adipose tissue from mice exposed to cold or an Adrb3 agonist to identify cellular and chromatin accessibility dynamics during beiging. Both stimuli induce chromatin remodeling that influence vascularization and inflammation in adipose. Beige adipocytes from cold-exposed mice have increased accessibility at genes regulating glycolytic processes, whereas Adrb3 activation increases cAMP responses. While both thermogenic stimuli increase accessibility at genes regulating thermogenesis, lipogenesis, and beige adipocyte development, the kinetics and magnitudes of the changes are distinct for the stimuli. Accessibility changes at lipogenic genes are linked to functional changes in lipid composition of adipose. Both stimuli tend to decrease the proportion of palmitic acids, a saturated FA in adipose. However, Adrb3 activation increases the proportion of monounsaturated FAs, whereas cold increases the proportion of polyunsaturated FAs. These findings reveal common and distinct mechanisms of cold and Adrb3 induced beige adipocyte biogenesis, and identify unique functional consequences of manipulating these pathways in vivo.

Published

2021

9. Confined migration induces heterochromatin formation and alters chromatin accessibility

Author

Jan Lammerding, Chao-Yuan Chang, Richa Agrawal, Jawuanna McAllister, Seoyeon Lee, Chieh-Ren Hsia, Paul D. Soloway, Julius Judd, and Ovais Hasan

Subjects

Multidisciplinary, DNA damage, Chemistry, Heterochromatin, Transcription (biology), Centromere, Chromatin silencing, Cell migration, Telomere, Chromatin, Cell biology

Abstract

SummaryDuring migration, cells often squeeze through small constrictions, requiring extensive deformation. We hypothesized that the nuclear deformation associated with such confined migration could alter chromatin organization and function. Studying cells migrating through microfluidic devices that mimic interstitial spaces in vivo, we found that confined migration results in increased H3K9me3 and H3K27me3 heterochromatin marks that persist for several days. This “confined migration-induced heterochromatin” (CMiH) was distinct from heterochromatin formation during migration initiation. Confined migration predominantly decreased chromatin accessibility at intergenic regions near centromeres and telomeres, suggesting heterochromatin spreading from existing heterochromatin sites. Consistent with the overall decrease in chromatin accessibility, global transcription was decreased during confined migration. Intriguingly, we also identified increased accessibility at promoter regions of genes linked to chromatin silencing, tumor invasion, and DNA damage response. Inhibiting CMiH reduced migration speed, suggesting that CMiH promotes confined migration. Together, our findings indicate that confined migration induces chromatin changes that regulate cell migration and other cellular functions.

Published

2022