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1. TM7SF3 controls TEAD1 splicing to prevent MASH-induced liver fibrosis

Author

Isaac, Roi, Bandyopadhyay, Gautam, Rohm, Theresa V, Kang, Sion, Wang, Jinyue, Pokhrel, Narayan, Sakane, Sadatsugu, Zapata, Rizaldy, Libster, Avraham M, Vinik, Yaron, Berhan, Asres, Kisseleva, Tatiana, Borok, Zea, Zick, Yehiel, Telese, Francesca, Webster, Nicholas JG, and Olefsky, Jerrold M

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Chronic Liver Disease and Cirrhosis, Digestive Diseases, Liver Disease, Genetics, 2.1 Biological and endogenous factors, TEA Domain Transcription Factors, Animals, Liver Cirrhosis, Transcription Factors, Humans, Mice, DNA-Binding Proteins, Alternative Splicing, Mice, Inbred C57BL, Nuclear Proteins, Hepatic Stellate Cells, Male, Fatty Liver, Mice, Knockout, ASO, Hippo pathway, MASH, NASH, TEAD1, TM7SF3, alternative splicing, fibrosis, hepatic stellate cells, Medical Biochemistry and Metabolomics, Endocrinology & Metabolism, Biochemistry and cell biology, Medical biochemistry and metabolomics
Abstract

The mechanisms of hepatic stellate cell (HSC) activation and the development of liver fibrosis are not fully understood. Here, we show that deletion of a nuclear seven transmembrane protein, TM7SF3, accelerates HSC activation in liver organoids, primary human HSCs, and in vivo in metabolic-dysfunction-associated steatohepatitis (MASH) mice, leading to activation of the fibrogenic program and HSC proliferation. Thus, TM7SF3 knockdown promotes alternative splicing of the Hippo pathway transcription factor, TEAD1, by inhibiting the splicing factor heterogeneous nuclear ribonucleoprotein U (hnRNPU). This results in the exclusion of the inhibitory exon 5, generating a more active form of TEAD1 and triggering HSC activation. Furthermore, inhibiting TEAD1 alternative splicing with a specific antisense oligomer (ASO) deactivates HSCs in vitro and reduces MASH diet-induced liver fibrosis. In conclusion, by inhibiting TEAD1 alternative splicing, TM7SF3 plays a pivotal role in mitigating HSC activation and the progression of MASH-related fibrosis.

Published
2024

2. Time-Restricted Feeding Attenuates Metabolic Dysfunction-Associated Steatohepatitis and Hepatocellular Carcinoma in Obese Male Mice

Author

Das, Manasi, Kumar, Deepak, Sauceda, Consuelo, Oberg, Alexis, Ellies, Lesley G, Zeng, Liping, Jih, Lily J, Newton, Isabel G, and Webster, Nicholas JG

Subjects
Biomedical and Clinical Sciences, Immunology, Rare Diseases, Cancer, Chronic Liver Disease and Cirrhosis, Liver Disease, Liver Cancer, Digestive Diseases, Hepatitis, Nutrition, Obesity, Aetiology, 2.1 Biological and endogenous factors, Metabolic and endocrine, Oral and gastrointestinal, Good Health and Well Being, non-alcoholic fatty liver disease, metabolic dysfunction-associated steatohepatitis, hepatocellular cancer, dietary intervention, time-restricted feeding, mouse model, Oncology and Carcinogenesis, Oncology and carcinogenesis
Abstract

Metabolic dysfunction-associated steatotic liver disease (MASLD) has surpassed the hepatitis B virus and hepatitis C virus as the leading cause of chronic liver disease in most parts of the Western world. MASLD (formerly known as NAFLD) encompasses both simple steatosis and more aggressive metabolic dysfunction-associated steatohepatitis (MASH), which is accompanied by inflammation, fibrosis, and cirrhosis, and ultimately can lead to hepatocellular carcinoma (HCC). There are currently very few approved therapies for MASH. Weight loss strategies such as caloric restriction can ameliorate the harmful metabolic effect of MASH and inhibit HCC; however, it is difficult to implement and maintain in daily life, especially in individuals diagnosed with HCC. In this study, we tested a time-restricted feeding (TRF) nutritional intervention in mouse models of MASH and HCC. We show that TRF abrogated metabolic dysregulation induced by a Western diet without any calorie restriction or weight loss. TRF improved insulin sensitivity and reduced hyperinsulinemia, liver steatosis, inflammation, and fibrosis. Importantly, TRF inhibited liver tumors in two mouse models of obesity-driven HCC. Our data suggest that TRF is likely to be effective in abrogating MASH and HCC and warrant further studies of time-restricted eating in humans with MASH who are at higher risk of developing HCC.

Published
2024

3. Loss of cAMP Signaling in CD11c Immune Cells Protects Against Diet-Induced Obesity.

Author

Zeng, Liping, Herdman, D Scott, Lee, Sung Min, Tao, Ailin, Das, Manasi, Bertin, Samuel, Eckmann, Lars, Mahata, Sushil K, Wu, Panyisha, Hara, Miki, Byun, Ji-Won, Devulapalli, Shwetha, Patel, Hemal H, Molina, Anthony JA, Osborn, Olivia, Corr, Maripat, Raz, Eyal, and Webster, Nicholas JG

Subjects
Biomedical and Clinical Sciences, Immunology, Obesity, Nutrition, Diabetes, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Animals, Mice, Adipose Tissue, White, Catecholamines, Diet, High-Fat, Insulin, Insulin Resistance, Mice, Inbred C57BL, Norepinephrine, Medical and Health Sciences, Endocrinology & Metabolism, Biomedical and clinical sciences
Abstract

In obesity, CD11c+ innate immune cells are recruited to adipose tissue and create an inflammatory state that causes both insulin and catecholamine resistance. We found that ablation of Gnas, the gene that encodes Gαs, in CD11c expressing cells protects mice from obesity, glucose intolerance, and insulin resistance. Transplantation studies showed that the lean phenotype was conferred by bone marrow-derived cells and did not require adaptive immunity. Loss of cAMP signaling was associated with increased adipose tissue norepinephrine and cAMP signaling, and prevention of catecholamine resistance. The adipose tissue had reduced expression of catecholamine transport and degradation enzymes, suggesting that the elevated norepinephrine resulted from decreased catabolism. Collectively, our results identified an important role for cAMP signaling in CD11c+ innate immune cells in whole-body metabolism by controlling norepinephrine levels in white adipose tissue, modulating catecholamine-induced lipolysis and increasing thermogenesis, which, together, created a lean phenotype.Article highlightsWe undertook this study to understand how immune cells communicate with adipocytes, specifically, whether cAMP signaling in the immune cell and the adipocyte are connected. We identified a reciprocal interaction between CD11c+ innate immune cells and adipocytes in which high cAMP signaling in the immune cell compartment induces low cAMP signaling in adipocytes and vice versa. This interaction regulates lipolysis in adipocytes and inflammation in immune cells, resulting in either a lean, obesity-resistant, and insulin-sensitive phenotype, or an obese, insulin-resistant phenotype.

Published
2023

4. Stimulating Antitumoral Immunity by Percutaneous Cryoablation and Combination Immunoadjuvant Therapy in a Murine Model of Hepatocellular Carcinoma

Author

Mandt, Tyler, Bangar, Amandip, Sauceda, Consuelo, Das, Manasi, Moderbacher, Carolyn, Ghani, Mansur, Webster, Nicholas, and Newton, Isabel

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Liver Disease, Digestive Diseases, Rare Diseases, Cancer, Liver Cancer, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Animals, Mice, Carcinoma, Hepatocellular, Liver Neoplasms, Cryosurgery, Adjuvants, Immunologic, Programmed Cell Death 1 Receptor, Disease Models, Animal, Mice, Inbred C57BL, Cytokines, Cell Line, Tumor, Clinical Sciences, Nuclear Medicine & Medical Imaging, Clinical sciences
Abstract

PurposeTo test the hypothesis that antitumoral immunity can be induced after cryoablation (cryo) of hepatocellular carcinoma (HCC) through coadministration of the immunostimulant CpG and an immune checkpoint (programmed cell death 1 [PD-1]) inhibitor.Materials and methodsSixty-three immunocompetent C57BL/6J mice were generated with 2 orthotopic HCC tumor foci: 1 for treatment and 1 to observe for antitumoral immunity. Tumors were treated with incomplete cryo alone or intratumoral CpG and/or a PD-1 inhibitor. The primary endpoint was death or when the following criteria for sacrifice were met: tumor > 1 cm (determined using ultrasound) or moribund state. Antitumoral immunity was assessed using flow cytometry and histology (tumor and liver) as well as enzyme-linked immunosorbent assay (serum). Analysis of variance was used for statistical comparisons.ResultsAt 1 week, the nonablated satellite tumor growth was reduced by 1.9-fold (P = .047) in the cryo + CpG group and by 2.8-fold (P = .007) in the cryo + CpG + PD-1 group compared with that in the cryo group. Compared with cryo alone, the time to tumor progression to endpoints was also prolonged for cryo + CpG + PD-1 and cryo + CpG mice, with log-rank hazard ratios of 0.42 (P = .031) and 0.27 (P < .001), respectively. Flow cytometry and histology showed increased cytotoxic T-cell infiltration (P = .002) and serum levels of the proinflammatory cytokine interferon-γ (P = .015) in tumors and serum of cryo + CpG mice compared with those in tumors and serum of mice treated with cryo alone. High serum levels of the anti-inflammatory cytokine tumor growth factor-β and the proangiogenesis chemokine C-X-C motif chemokine ligand 1 were correlated with a shorter time to endpoints and faster tumor growth.ConclusionsCryo combined with the immunostimulant CpG promoted cytotoxic T-cell infiltration into tumors, slowed tumor growth, and prolonged the time to progression to endpoints in an aggressive murine HCC model.

Published
2023

6. Long-term exposure to house dust mites accelerates lung cancer development in mice

Author

Wang, Dongjie, Li, Wen, Albasha, Natalie, Griffin, Lindsey, Chang, Han, Amaya, Lauren, Ganguly, Sneha, Zeng, Liping, Keum, Bora, González-Navajas, José M, Levin, Matt, AkhavanAghdam, Zohreh, Snyder, Helen, Schwartz, David, Tao, Ailin, Boosherhri, Laela M, Hoffman, Hal M, Rose, Michael, Estrada, Monica Valeria, Varki, Nissi, Herdman, Scott, Corr, Maripat, Webster, Nicholas JG, Raz, Eyal, and Bertin, Samuel

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Lung, Health Effects of Indoor Air Pollution, Lung Cancer, Aetiology, 2.1 Biological and endogenous factors, Respiratory, Good Health and Well Being, Humans, Animals, Mice, NLR Family, Pyrin Domain-Containing 3 Protein, Pyroglyphidae, Asthma, Lung Neoplasms, Disease Models, Animal, Tumor Microenvironment, Lung cancer, Kras, Urethane, House dust mites, Chronic inflammation, NLRP3, IL-1 beta, CCL2, Macrophages, Tumor microenvironment, IL-1β, Oncology and carcinogenesis
Abstract

BackgroundIndividuals with certain chronic inflammatory lung diseases have a higher risk of developing lung cancer (LC). However, the underlying mechanisms remain largely unknown. Here, we hypothesized that chronic exposure to house dust mites (HDM), a common indoor aeroallergen associated with the development of asthma, accelerates LC development through the induction of chronic lung inflammation (CLI).  METHODS: The effects of HDM and heat-inactivated HDM (HI-HDM) extracts were evaluated in two preclinical mouse models of LC (a chemically-induced model using the carcinogen urethane and a genetically-driven model with oncogenic KrasG12D activation in lung epithelial cells) and on murine macrophages in vitro. Pharmacological blockade or genetic deletion of the Nod-like receptor family pyrin domain-containing protein 3 (NLRP3) inflammasome, caspase-1, interleukin-1β (IL-1β), and C-C motif chemokine ligand 2 (CCL2) or treatment with an inhaled corticosteroid (ICS) was used to uncover the pro-tumorigenic effect of HDM.  RESULTS: Chronic intranasal (i.n) instillation of HDM accelerated LC development in the two mouse models. Mechanistically, HDM caused a particular subtype of CLI, in which the NLRP3/IL-1β signaling pathway is chronically activated in macrophages, and made the lung microenvironment conducive to tumor development. The tumor-promoting effect of HDM was significantly decreased by heat treatment of the HDM extract and was inhibited by NLRP3, IL-1β, and CCL2 neutralization, or ICS treatment.ConclusionsCollectively, these data indicate that long-term exposure to HDM can accelerate lung tumorigenesis in susceptible hosts (e.g., mice and potentially humans exposed to lung carcinogens or genetically predisposed to develop LC).

Published
2023

7. A seven-transmembrane protein-TM7SF3, resides in nuclear speckles and regulates alternative splicing

Author

Isaac, Roi, Vinik, Yaron, Mikl, Martin, Nadav-Eliyahu, Shani, Shatz-Azoulay, Hadas, Yaakobi, Adi, DeForest, Natalie, Majithia, Amit R, Webster, Nicholas JG, Shav-Tal, Yaron, Elhanany, Eytan, and Zick, Yehiel

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Biotechnology, Human Genome, Rare Diseases, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Biochemistry, Biological sciences, Structural biology, TM7SF3, nuclear speckles, alternative splicing, seven transmembrane proteins
Abstract

The seven-transmembrane superfamily member 3 protein (TM7SF3) is a p53-regulated homeostatic factor that attenuates cellular stress and the unfolded protein response. Here we show that TM7SF3 localizes to nuclear speckles; eukaryotic nuclear bodies enriched in splicing factors. This unexpected location for a trans -membranal protein enables formation of stable complexes between TM7SF3 and pre-mRNA splicing factors including DHX15, LARP7, HNRNPU, RBM14, and HNRNPK. Indeed, TM7SF3 regulates alternative splicing of >330 genes, mainly at the 3'end of introns by directly modulating the activity of splicing factors such as HNRNPK. These effects are observed both in cell lines and primary human pancreatic islets. Accordingly, silencing of TM7SF3 results in differential expression of 1465 genes (about 7% of the human genome); with 844 and 621 genes being up- or down-regulated, respectively. Our findings implicate TM7SF3, as a resident protein of nuclear speckles and suggest a role for seven-transmembrane proteins as regulators of alternative splicing.

Published
2022

9. Hepatocyte Deletion of IGF2 Prevents DNA Damage and Tumor Formation in Hepatocellular Carcinoma

Author

Kumar, Deepak, Das, Manasi, Oberg, Alexis, Sahoo, Debashis, Wu, Panyisha, Sauceda, Consuelo, Jih, Lily, Ellies, Lesley G, Langiewicz, Magda T, Sen, Supriya, and Webster, Nicholas JG

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biological Sciences, Rare Diseases, Liver Disease, Digestive Diseases, Liver Cancer, Genetics, Cancer, Orphan Drug, Chronic Liver Disease and Cirrhosis, Aetiology, 2.1 Biological and endogenous factors, Animals, Carcinoma, Hepatocellular, DNA Damage, Hepatocytes, Humans, Insulin-Like Growth Factor II, Liver Neoplasms, Mice, RNA, Messenger, Serine-Arginine Splicing Factors, insulin-like growth factor, liver cancer, prognosis, RNA splicing
Abstract

Hepatocellular carcinoma (HCC) is the fifth most common cancer worldwide. Serine-arginine rich splicing factor 3 (SRSF3) plays a critical role in hepatocyte function and its loss in mice promotes chronic liver damage and leads to HCC. Hepatocyte-specific SRSF3 knockout mice (SKO mice) also overexpress insulin-like growth factor 2 (IGF2). In the present study, double deletion of Igf2 and Srsf3 (DKO mice) prevents hepatic fibrosis and inflammation, and completely prevents tumor formation, and is associated with decreased proliferation, apoptosis and DNA damage, and restored DNA repair enzyme expression. This is confirmed in vitro, where IGF2 treatment of HepG2 hepatoma cells decreases DNA repair enzyme expression and causes DNA damage. Tumors from the SKO mice also show mutational signatures consistent with homologous recombination and mismatch repair defects. Analysis of frozen human samples shows that SRSF3 protein is decreased sixfold in HCC compared to normal liver tissue but SRSF3 mRNA is increased. Looking at public TCGA data, HCC patients having high SRSF3 mRNA expression show poor survival, as do patients with alterations in known SRSF3-dependent splicing events. The results indicate that IGF2 overexpression in conjunction with reduced SRSF3 splicing activity could be a major cause of DNA damage and driver of liver cancer.

Published
2022

10. Immunosuppression of Macrophages Underlies the Cardioprotective Effects of CST (Catestatin)

Author

Ying, Wei, Tang, Kechun, Avolio, Ennio, Schilling, Jan M, Pasqua, Teresa, Liu, Matthew A, Cheng, Hongqiang, Gao, Hong, Zhang, Jing, Mahata, Sumana, Ko, Myung S, Bandyopadhyay, Gautam, Das, Soumita, Roth, David M, Sahoo, Debashis, Webster, Nicholas JG, Sheikh, Farah, Ghosh, Gourisankar, Patel, Hemal H, Ghosh, Pradipta, van den Bogaart, Geert, and Mahata, Sushil K

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Clinical Sciences, Animals, Cardiotonic Agents, Chromogranin A, Hypertension, Hypertrophy, Left Ventricular, Immunosuppression Therapy, Macrophages, Male, Mice, Mice, Knockout, Peptide Fragments, bone marrow, chromogranin A, hypertension, inflammation, macrophages, Cardiorespiratory Medicine and Haematology, Public Health and Health Services, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences
Abstract

[Figure: see text].

Published
2021

11. Time-restricted feeding normalizes hyperinsulinemia to inhibit breast cancer in obese postmenopausal mouse models.

Author

Das, Manasi, Ellies, Lesley G, Kumar, Deepak, Sauceda, Consuelo, Oberg, Alexis, Gross, Emilie, Mandt, Tyler, Newton, Isabel G, Kaur, Mehak, Sears, Dorothy D, and Webster, Nicholas JG

Subjects
Cell Line, Tumor, Animals, Mice, Inbred C57BL, Humans, Mice, Obese, Breast Neoplasms, Hyperinsulinism, Insulin Resistance, Obesity, Disease Models, Animal, Caloric Restriction, Ovariectomy, Fasting, Postmenopause, Female, Diet, High-Fat
Abstract

Accumulating evidence indicates that obesity with its associated metabolic dysregulation, including hyperinsulinemia and aberrant circadian rhythms, increases the risk for a variety of cancers including postmenopausal breast cancer. Caloric restriction can ameliorate the harmful metabolic effects of obesity and inhibit cancer progression but is difficult to implement and maintain outside of the clinic. In this study, we aim to test a time-restricted feeding (TRF) approach on mouse models of obesity-driven postmenopausal breast cancer. We show that TRF abrogates the obesity-enhanced mammary tumor growth in two orthotopic models in the absence of calorie restriction or weight loss. TRF also reduces breast cancer metastasis to the lung. Furthermore, TRF delays tumor initiation in a transgenic model of mammary tumorigenesis prior to the onset of obesity. Notably, TRF increases whole-body insulin sensitivity, reduces hyperinsulinemia, restores diurnal gene expression rhythms in the tumor, and attenuates tumor growth and insulin signaling. Importantly, inhibition of insulin secretion with diazoxide mimics TRF whereas artificial elevation of insulin through insulin pumps implantation reverses the effect of TRF, suggesting that TRF acts through modulating hyperinsulinemia. Our data suggest that TRF is likely to be effective in breast cancer prevention and therapy.

Published
2021

13. Chromogranin A pathway: from pathogenic molecule to renal disease.

Author

Mir, Saiful, Cheung, Wai, Wan, Ji, OConnor, Daniel, Webster, Nicholas, Macedo, Etienne, Vaingankar, Sucheta, and Biswas, Nilima

Subjects
Animals, Chromogranin A, Hypertension, Renal, Mice, Mice, Knockout, Nephritis
Abstract

BACKGROUND: Chromogranin A (CHGA) is an index granin protein critical for biogenesis and exocytotic release of catecholamine storage granules. It is elevated in plasma of patients with sympathetic over-activity and kidney dysfunction. Several CHGA polymorphisms are associated with hypertensive kidney disease. Previously, we unraveled the molecular mechanism by which CHGA expression is regulated in African Americans carrying a genetic variation associated with hypertensive chronic kidney disease (CKD). METHOD: Experimental CKD mouse model were created by 5/6th nephrectomy (Npx) using wild-type and Chga-/- knockout mouse strains to delineate the role of CHGA in CKD. RESULT: Wild-type-Npx mice expressing Chga developed exacerbated azotemia and fibrosis as compared with their knockout-Npx counterparts. Gene expression profiling revealed downregulation of mitochondrial respiratory complexes genes consistent with maladaptive mitochondria in wild-type-Npx mice, contrasted to knockout-Npx. In healthy individuals, an inverse relationship between circulating CHGA levels and glomerular function was observed. In vitro, mesangial cells treated with CHGA-triggered nitric oxide release by a signaling mechanism involving scavenger receptor SR-A. The CHGA-treated and untreated mesangial cells displayed differential expression of cytokine, chemokine, complement, acute phase inflammatory and apoptotic pathway genes. Thus, build-up of plasma CHGA because of kidney injury served as an insult to the mesangial cells resulting in expression of genes promoting inflammation, fibrosis, and progression of CKD. CONCLUSION: These findings improve understanding of the role of elevated CHGA in the progression of CKD and reveal novel pathways that could be exploited for therapeutic strategies in hypertensive kidney disease.

Published
2020

14. Inhibition of IRF4 in dendritic cells by PRR-independent and -dependent signals inhibit Th2 and promote Th17 responses.

Author

Lee, Jihyung, Zhang, Junyan, Chung, Young-Jun, Kim, Jun Hwan, Kook, Chae Min, González-Navajas, José M, Herdman, David S, Nürnberg, Bernd, Insel, Paul A, Corr, Maripat, Mo, Ji-Hun, Tao, Ailin, Yasuda, Kei, Rifkin, Ian R, Broide, David H, Sciammas, Roger, Webster, Nicholas Jg, and Raz, Eyal

Subjects
IRF4, PRR, Th17, Th2, cAMP, dendritic cells, immunology, inflammation, mouse, Biochemistry and Cell Biology
Abstract

Cyclic AMP (cAMP) is involved in many biological processes but little is known regarding its role in shaping immunity. Here we show that cAMP-PKA-CREB signaling (a pattern recognition receptor [PRR]-independent mechanism) regulates conventional type-2 Dendritic Cells (cDC2s) in mice and reprograms their Th17-inducing properties via repression of IRF4 and KLF4, transcription factors essential for cDC2-mediated Th2 induction. In mice, genetic loss of IRF4 phenocopies the effects of cAMP on Th17 induction and restoration of IRF4 prevents the cAMP effect. Moreover, curdlan, a PRR-dependent microbial product, activates CREB and represses IRF4 and KLF4, resulting in a pro-Th17 phenotype of cDC2s. These in vitro and in vivo results define a novel signaling pathway by which cDC2s display plasticity and provide a new molecular basis for the classification of novel cDC2 and cDC17 subsets. The findings also reveal that repressing IRF4 and KLF4 pathway can be harnessed for immuno-regulation.

Published
2020

15. Single-Cell Transcriptomes Reveal a Complex Cellular Landscape in the Middle Ear and Differential Capacities for Acute Response to Infection.

Author

Ryan, Allen F, Nasamran, Chanond A, Pak, Kwang, Draf, Clara, Fisch, Kathleen M, Webster, Nicholas, and Kurabi, Arwa

Subjects
cluster-profiling, homeostasis, middle ear, otitis media, single-cell, Genetics, Clinical Sciences, Law
Abstract

Single-cell transcriptomics was used to profile cells of the normal murine middle ear. Clustering analysis of 6770 transcriptomes identified 17 cell clusters corresponding to distinct cell types: five epithelial, three stromal, three lymphocyte, two monocyte, two endothelial, one pericyte and one melanocyte cluster. Within some clusters, cell subtypes were identified. While many corresponded to those cell types known from prior studies, several novel types or subtypes were noted. The results indicate unexpected cellular diversity within the resting middle ear mucosa. The resolution of uncomplicated, acute, otitis media is too rapid for cognate immunity to play a major role. Thus innate immunity is likely responsible for normal recovery from middle ear infection. The need for rapid response to pathogens suggests that innate immune genes may be constitutively expressed by middle ear cells. We therefore assessed expression of innate immune genes across all cell types, to evaluate potential for rapid responses to middle ear infection. Resident monocytes/macrophages expressed the most such genes, including pathogen receptors, cytokines, chemokines and chemokine receptors. Other cell types displayed distinct innate immune gene profiles. Epithelial cells preferentially expressed pathogen receptors, bactericidal peptides and mucins. Stromal and endothelial cells expressed pathogen receptors. Pericytes expressed pro-inflammatory cytokines. Lymphocytes expressed chemokine receptors and antimicrobials. The results suggest that tissue monocytes, including macrophages, are the master regulators of the immediate middle ear response to infection, but that virtually all cell types act in concert to mount a defense against pathogens.

Published
2020

18. Degradation of splicing factor SRSF3 contributes to progressive liver disease

Author

Kumar, Deepak, Das, Manasi, Sauceda, Consuelo, Ellies, Lesley G, Kuo, Karina, Parwal, Purva, Kaur, Mehak, Jih, Lily, Bandyopadhyay, Gautam K, Burton, Douglas, Loomba, Rohit, Osborn, Olivia, and Webster, Nicholas Jg

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Cancer, Chronic Liver Disease and Cirrhosis, Digestive Diseases, Liver Disease, Hepatitis, Rare Diseases, Prevention, Liver Cancer, Genetics, Aetiology, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Good Health and Well Being, Animals, Hepatocytes, Liver, Liver Cirrhosis, Experimental, Mice, NEDD8 Protein, Non-alcoholic Fatty Liver Disease, Protein Processing, Post-Translational, Proteolysis, RNA Splicing, Serine-Arginine Splicing Factors, Endocrinology, Hepatology, Liver cancer, Obesity, RNA processing, Medical and Health Sciences, Immunology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Serine rich splicing factor 3 (SRSF3) plays a critical role in liver function and its loss promotes chronic liver damage and regeneration. As a consequence, genetic deletion of SRSF3 in hepatocytes caused progressive liver disease and ultimately led to hepatocellular carcinoma. Here we show that SRSF3 is decreased in human liver samples with non-alcoholic fatty liver disease (NAFLD), non-alcoholic steatohepatitis (NASH), or cirrhosis that was associated with alterations in RNA splicing of known SRSF3 target genes. Hepatic SRSF3 expression was similarly decreased and RNA splicing dysregulated in mouse models of NAFLD and NASH. We showed that palmitic acid-induced oxidative stress caused conjugation of the ubiquitin like NEDD8 protein to SRSF3 and proteasome mediated degradation. SRSF3 was selectively neddylated at lysine11 and mutation of this residue (SRSF3-K11R) was sufficient to prevent both SRSF3 degradation and alterations in RNA splicing. Finally prevention of SRSF3 degradation in vivo partially protected mice from hepatic steatosis, fibrosis and inflammation. These results highlight a neddylation-dependent mechanism regulating gene expression in the liver that is disrupted in early metabolic liver disease and may contribute to the progression to NASH, cirrhosis and ultimately hepatocellular carcinoma.

Published
2019

19. Neuronal SIRT1 Regulates Metabolic and Reproductive Function and the Response to Caloric Restriction

Author

Rickert, Emily, Fernandez, Marina O, Choi, Irene, Gorman, Michael, Olefsky, Jerrold M, and Webster, Nicholas JG

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Nutrition, Neurosciences, Contraception/Reproduction, Underpinning research, 1.1 Normal biological development and functioning, neurons, fertility, caloric restriction, glucose intolerance, Cardiovascular medicine and haematology
Abstract

Sirt1 is an NAD-dependent, class III deacetylase that functions as a cellular energy sensor. In addition to its well-characterized effects in peripheral tissues, emerging evidence suggests that neuronal Sirt1 activity plays a role in the central regulation of energy balance and glucose metabolism. In this study, we generated mice expressing an enzymatically inactive form (N-MUT) or wild-type (WT) SIRT1 (N-OX) in mature neurons. N-OX male and female mice had impaired glucose tolerance, and N-MUT female, but not male, mice had improved glucose tolerance compared with that of WT littermates. Furthermore, glucose tolerance was improved in all mice with caloric restriction (CR) but was greater in the N-OX mice, who had better glucose tolerance than their littermates. At the reproductive level, N-OX females had impaired estrous cycles, with increased cycle length and more time in estrus. LH and progesterone surges were absent on the evening of proestrus in the N-OX mice, suggesting a defect in spontaneous ovulation, which was confirmed by the ovarian histology revealing fewer corpora lutea. Despite this defect, the mice were still fertile when mated to WT mice on the day of proestrus, indicating that the mice could respond to normal pheromonal or environmental cues. When subjected to CR, the N-OX mice went into diestrus arrest earlier than their littermates. Together, these results suggested that the overexpression of SIRT1 rendered the mice more sensitive to the metabolic improvements and suppression of reproductive cycles by CR, which was independent of circadian rhythms.

Published
2019

20. Catestatin Inhibits Obesity-Induced Macrophage Infiltration and Inflammation in the Liver and Suppresses Hepatic Glucose Production, Leading to Improved Insulin Sensitivity.

Author

Ying, Wei, Mahata, Sumana, Bandyopadhyay, Gautam K, Zhou, Zhenqi, Wollam, Joshua, Vu, Jessica, Mayoral, Rafael, Chi, Nai-Wen, Webster, Nicholas JG, Corti, Angelo, and Mahata, Sushil K

Subjects
Liver, Macrophages, Kupffer Cells, Animals, Mice, Knockout, Mice, Insulin Resistance, Obesity, Inflammation, Hormones, Glucagon, Insulin, Glucose, Peptide Fragments, Gene Expression Regulation, Gluconeogenesis, Male, Lipid Metabolism, Chromogranin A, Liver Disease, Diabetes, Digestive Diseases, Nutrition, 2.1 Biological and endogenous factors, Aetiology, Metabolic and endocrine, Oral and gastrointestinal, Cardiovascular, Medical and Health Sciences, Endocrinology & Metabolism
Abstract

The activation of Kupffer cells (KCs) and monocyte-derived recruited macrophages (McMΦs) in the liver contributes to obesity-induced insulin resistance and type 2 diabetes. Mice with diet-induced obesity (DIO mice) treated with chromogranin A peptide catestatin (CST) showed several positive results. These included decreased hepatic/plasma lipids and plasma insulin, diminished expression of gluconeogenic genes, attenuated expression of proinflammatory genes, increased expression of anti-inflammatory genes in McMΦs, and inhibition of the infiltration of McMΦs resulting in improvement of insulin sensitivity. Systemic CST knockout (CST-KO) mice on normal chow diet (NCD) ate more food, gained weight, and displayed elevated blood glucose and insulin levels. Supplementation of CST normalized glucose and insulin levels. To verify that the CST deficiency caused macrophages to be very proinflammatory in CST-KO NCD mice and produced glucose intolerance, we tested the effects of (sorted with FACS) F4/80+Ly6C- cells (representing KCs) and F4/80-Ly6C+ cells (representing McMΦs) on hepatic glucose production (HGP). Both basal HGP and glucagon-induced HGP were markedly increased in hepatocytes cocultured with KCs and McMΦs from NCD-fed CST-KO mice, and the effect was abrogated upon pretreatment of CST-KO macrophages with CST. Thus, we provide a novel mechanism of HGP suppression through CST-mediated inhibition of macrophage infiltration and function.

Published
2018

21. Astrocyte-Specific Deletion of Peroxisome-Proliferator Activated Receptor-γ Impairs Glucose Metabolism and Estrous Cycling in Female Mice

Author

Fernandez, Marina O, Hsueh, Katherine, Park, Hyun Tae, Sauceda, Consuelo, Hwang, Vicky, Kumar, Deepak, Kim, Sun, Rickert, Emily, Mahata, Sumana, and Webster, Nicholas JG

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Genetics, Nutrition, Obesity, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Aetiology, 2.1 Biological and endogenous factors, Metabolic and endocrine, astrocytes, fertility, glucose intolerance, obesity, PPARgamma, obesity, PPARgamma, Cardiovascular medicine and haematology
Abstract

Mice lacking peroxisome-proliferator activated receptor-γ (PPARγ) in neurons do not become leptin resistant when placed on a high-fat diet (HFD). In male mice, this results in decreased food intake and increased energy expenditure, causing reduced body weight, but this difference in body weight is not observed in female mice. In addition, estrous cycles are disturbed and the ovaries present with hemorrhagic follicles. We observed that PPARγ was more highly expressed in astrocytes than neurons, so we created an inducible, conditional knockout of PPARγ in astrocytes (AKO). The AKO mice had impaired glucose tolerance and hepatic steatosis that did not worsen with HFD. Expression of gluconeogenic genes was elevated in the mouse livers, as was expression of several genes involved in lipogenesis, lipid transport, and storage. The AKO mice also had a reproductive phenotype with fewer estrous cycles, elevated plasma testosterone levels, reduced corpora lutea formation, and alterations in hypothalamic and ovarian gene expression. Thus, the phenotypes of the AKO mice were very different from those seen in the neuronal knockout mice, suggesting distinct roles for PPARγ in these two cell types.

Published
2017

22. Chromogranin A regulates vesicle storage and mitochondrial dynamics to influence insulin secretion.

Author

Wollam, Joshua, Mahata, Sumana, Riopel, Matthew, Hernandez-Carretero, Angelina, Biswas, Angshuman, Bandyopadhyay, Gautam, Chi, Nai-Wen, Eiden, Lee, Mahapatra, Nitish, Corti, Angelo, Webster, Nicholas, and Mahata, Sushil

Subjects
Catestatin, Chromogranin A, Dense core vesicle, Glucagon, Insulin, Mitochondria, Pancreastatin, Somatostatin, Animals, Calreticulin, Cell Differentiation, Chromogranin A, Exocytosis, Gene Expression Regulation, Glucose, Insulin, Insulin Secretion, Islets of Langerhans, Male, Mice, Mice, Inbred C57BL, Mitochondrial Dynamics, Peptide Fragments, Secretory Vesicles
Abstract

Chromogranin A (CgA) is a prohormone and a granulogenic factor that regulates secretory pathways in neuroendocrine tissues. In β-cells of the endocrine pancreas, CgA is a major cargo in insulin secretory vesicles. The impact of CgA deficiency on the formation and exocytosis of insulin vesicles is yet to be investigated. In addition, no literature exists on the impact of CgA on mitochondrial function in β-cells. Using three different antibodies, we demonstrate that CgA is processed to vasostatin- and catestatin-containing fragments in pancreatic islet cells. CgA deficiency in Chga-KO islets leads to compensatory overexpression of chromogranin B, secretogranin II, SNARE proteins and insulin genes, as well as increased insulin protein content. Ultrastructural studies of pancreatic islets revealed that Chga-KO β-cells contain fewer immature secretory granules than wild-type (WT) control but increased numbers of mature secretory granules and plasma membrane-docked vesicles. Compared to WT control, CgA-deficient β-cells exhibited increases in mitochondrial volume, numerical densities and fusion, as well as increased expression of nuclear encoded genes (Ndufa9, Ndufs8, Cyc1 and Atp5o). These changes in secretory vesicles and the mitochondria likely contribute to the increased glucose-stimulated insulin secretion observed in Chga-KO mice. We conclude that CgA is an important regulator for coordination of mitochondrial dynamics, secretory vesicular quanta and GSIS for optimal secretory functioning of β-cells, suggesting a strong, CgA-dependent positive link between mitochondrial fusion and GSIS.

Published
2017

23. Muscle injury, impaired muscle function and insulin resistance in Chromogranin A-knockout mice

Author

Tang, Kechun, Pasqua, Teresa, Biswas, Angshuman, Mahata, Sumana, Tang, Jennifer, Tang, Alisa, Bandyopadhyay, Gautam K, Sinha-Hikim, Amiya P, Chi, Nai-Wen, Webster, Nicholas JG, Corti, Angelo, and Mahata, Sushil K

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Prevention, 2.1 Biological and endogenous factors, Aetiology, 1.1 Normal biological development and functioning, Underpinning research, Animals, Chromogranin A, Electron Transport Complex IV, Glucose, Glycolysis, Insulin Resistance, Mice, Mice, Knockout, Mitochondria, Muscle, Skeletal, Phosphorylation, Physical Conditioning, Animal, Proto-Oncogene Proteins c-akt, Signal Transduction, p38 Mitogen-Activated Protein Kinases, skeletal muscle, insulin signaling, glucose metabolism, tubular aggregates, mitochondria, Animal Production, Veterinary Sciences, Endocrinology & Metabolism, Animal production, Clinical sciences
Abstract

Chromogranin A (CgA) is widely expressed in endocrine and neuroendocrine tissues as well as in the central nervous system. We observed CgA expression (mRNA and protein) in the gastrocnemius (GAS) muscle and found that performance of CgA-deficient Chga-KO mice in treadmill exercise was impaired. Supplementation with CgA in Chga-KO mice restored exercise ability suggesting a novel role for endogenous CgA in skeletal muscle function. Chga-KO mice display (i) lack of exercise-induced stimulation of pAKT, pTBC1D1 and phospho-p38 kinase signaling, (ii) loss of GAS muscle mass, (iii) extensive formation of tubular aggregates (TA), (iv) disorganized cristae architecture in mitochondria, (v) increased expression of the inflammatory cytokines Tnfα, Il6 and Ifnγ, and fibrosis. The impaired maximum running speed and endurance in the treadmill exercise in Chga-KO mice correlated with decreased glucose uptake and glycolysis, defects in glucose oxidation and decreased mitochondrial cytochrome C oxidase activity. The lack of adaptation to endurance training correlated with the lack of stimulation of p38MAPK that is known to mediate the response to tissue damage. As CgA sorts proteins to the regulated secretory pathway, we speculate that lack of CgA could cause misfolding of membrane proteins inducing aggregation of sarcoplasmic reticulum (SR) membranes and formation of tubular aggregates that is observed in Chga-KO mice. In conclusion, CgA deficiency renders the muscle energy deficient, impairs performance in treadmill exercise and prevents regeneration after exercise-induced tissue damage.

Published
2017

24. Alternative RNA Splicing in the Pathogenesis of Liver Disease

Author

Webster, Nicholas JG

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Digestive Diseases, Rare Diseases, Chronic Liver Disease and Cirrhosis, Nutrition, Hepatitis, Obesity, Liver Cancer, Diabetes, Liver Disease, Genetics, Cancer, 2.1 Biological and endogenous factors, Aetiology, Metabolic and endocrine, Oral and gastrointestinal, Good Health and Well Being, RNA splicing, hepatocellular carcinoma, microarrays, non-alcoholic fatty liver disease, splicing factors, Nutrition and Dietetics, Clinical sciences
Abstract

Non-alcoholic fatty liver disease (NAFLD) is becoming increasingly prevalent due to the worldwide obesity epidemic and currently affects one-third of adults or about one billion people worldwide. NAFLD is predicted to affect over 50% of the world's population by the end of the next decade. It is the most common form of liver disease and is associated with increased risk for progression to a more severe form non-alcoholic steatohepatitis, as well as insulin resistance, type 2 diabetes mellitus, cirrhosis, and eventually hepatocellular carcinoma. This review article will focus on the role of alternative splicing in normal liver physiology and dysregulation in liver disease.

Published
2017

25. Time-restricted feeding improves insulin resistance and hepatic steatosis in a mouse model of postmenopausal obesity.

Author

Chung, Heekyung, Chou, Winjet, Sears, Dorothy D, Patterson, Ruth E, Webster, Nicholas JG, and Ellies, Lesley G

Subjects
Animals, Mice, Inbred C57BL, Mice, Fatty Liver, Insulin Resistance, Obesity, Disease Models, Animal, Body Weight, Gene Expression Profiling, Feeding Behavior, Gluconeogenesis, Energy Intake, Postmenopause, Female, Hepatosteatosis, Insulin resistance, Postmenopausal, Time-restricted feeding, Inbred C57BL, Disease Models, Animal, Aging, Nutrition, Prevention, Liver Disease, Digestive Diseases, Diabetes, Cancer, Metabolic and Endocrine, Oral and Gastrointestinal, Endocrinology & Metabolism, Clinical Sciences
Abstract

BackgroundMenopause is associated with significant hormonal changes that result in increased total body fat and abdominal fat, amplifying the risk for metabolic syndrome and diseases such as diabetes, cardiovascular disease and cancer in postmenopausal women. Intermittent fasting regimens hold significant health benefit promise for obese humans, however, regimens that include extreme daytime calorie restriction or daytime fasting are generally associated with hunger and irritability, hampering long-term compliance and adoption in the clinical setting. Time-restricted feeding (TRF), a regimen allowing eating only during a specific period in the normal circadian feeding cycle, without calorie restriction, may increase compliance and provide a more clinically viable method for reducing the detrimental metabolic consequences associated with obesity.MethodsWe tested TRF as an intervention in a mouse model of postmenopausal obesity. Metabolic parameters were measured using Clinical Laboratory Animal Monitoring System (CLAMS) and we carried out glucose tolerance tests. We also stained liver sections with oil red O to examine steatosis and measured gene expression related to gluconeogenesis.ResultsPreexisting metabolic disease was significantly attenuated during 7 weeks of TRF. Despite having access to the same high fat diet (HFD) as ad libitum fed (ALF) mice, TRF mice experienced rapid weight loss followed by a delayed improvement in insulin resistance and a reduced severity of hepatic steatosis by having access to the HFD for only 8h during their normal nocturnal feeding period. The lower respiratory exchange ratio in the TRF group compared with the ALF group early in the dark phase suggested that fat was the predominant fuel source in the TRF group and correlated with gene expression analyses that suggested a switch from gluconeogenesis to ketogenesis. In addition, TRF mice were more physically active than ALF fed mice.ConclusionsOur data support further analysis of TRF as a clinically viable form of intermittent fasting to improve metabolic health due to obesity.

Published
2016

26. Both canonical and non-canonical NF-κB activation contribute to the proliferative response of the middle ear mucosa during bacterial infection

Author

Cho, Chang Gun, Pak, Kwang, Webster, Nicholas, Kurabi, Arwa, and Ryan, Allen F

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Biotechnology, Otitis Media, Pediatric, Infectious Diseases, 2.1 Biological and endogenous factors, Aetiology, Animals, Bacterial Infections, Cell Proliferation, Cells, Cultured, Child, Ear, Middle, Humans, Hyperplasia, Immunity, Innate, Mice, Mice, Inbred C57BL, Mucous Membrane, NF-kappa B, Rats, Rats, Sprague-Dawley, Signal Transduction, Transcriptional Activation, Otitis media, middle ear, NF-B activation, inflammation, mucosal hyperplasia, NF-κB activation, Immunology, Microbiology
Abstract

A major aspect of pathology in otitis media (OM), the most common childhood bacterial disease, is hyperplasia of the middle ear mucosa. Activation of innate immune receptors during OM leads to the activation of NF-κB, a pleiotropic transcription factor involved both in inflammation and tissue growth. To explore the role of NF-κB in mucosal hyperplasia during OM, we evaluated the expression of genes involved in two modes of NF-κB activation during a complete episode of acute, bacterial OM in mice. We also determined the effects of inhibitors of each pathway on infection-stimulated mucosal growth in vitro. A majority of the genes that mediate both the canonical and the non-canonical pathways of NF-κB activation were regulated during OM, many with kinetics related to the time course of mucosal hyperplasia. Inhibition of either pathway reduced the growth of cultured mucosal explants in a dose-dependent manner. However, inhibition of the canonical pathway produced a greater effect, suggesting that this mode of NF-κB activation dominates mucosal hyperplasia during OM.

Published
2016

27. A Novel Gonadotropin-Releasing Hormone 1 (Gnrh1) Enhancer-Derived Noncoding RNA Regulates Gnrh1 Gene Expression in GnRH Neuronal Cell Models.

Author

Huang, Polly P, Brusman, Liza E, Iyer, Anita K, Webster, Nicholas JG, and Mellon, Pamela L

Subjects
Hypothalamus, Neurons, NIH 3T3 Cells, Animals, Humans, Mice, Rats, Dactinomycin, Neuropeptides, Protein Precursors, RNA, Small Interfering, RNA, Untranslated, Sequence Analysis, RNA, Gene Expression Regulation, Polyadenylation, Fertility, Gonadotropin-Releasing Hormone, Enhancer Elements, Genetic, Promoter Regions, Genetic, RNA, Small Interfering, Untranslated, Sequence Analysis, Enhancer Elements, Genetic, Promoter Regions, General Science & Technology
Abstract

Gonadotropin-releasing hormone (GnRH), a neuropeptide released from a small population of neurons in the hypothalamus, is the central mediator of the hypothalamic-pituitary-gonadal axis, and is required for normal reproductive development and function. Evolutionarily conserved regulatory elements in the mouse, rat, and human Gnrh1 gene include three enhancers and the proximal promoter, which confer Gnrh1 gene expression specifically in GnRH neurons. In immortalized mouse hypothalamic GnRH (GT1-7) neurons, which show pulsatile GnRH release in culture, RNA sequencing and RT-qPCR revealed that expression of a novel long noncoding RNA at Gnrh1 enhancer 1 correlates with high levels of GnRH mRNA expression. In GT1-7 neurons, which contain a transgene carrying 3 kb of the rat Gnrh1 regulatory region, both the mouse and rat Gnrh1 enhancer-derived noncoding RNAs (GnRH-E1 RNAs) are expressed. We investigated the characteristics and function of the endogenous mouse GnRH-E1 RNA. Strand-specific RT-PCR analysis of GnRH-E1 RNA in GT1-7 cells revealed GnRH-E1 RNAs that are transcribed in the sense and antisense directions from distinct 5' start sites, are 3' polyadenylated, and are over 2 kb in length. These RNAs are localized in the nucleus and have a half-life of over 8 hours. In GT1-7 neurons, siRNA knockdown of mouse GnRH-E1 RNA resulted in a significant decrease in the expression of the Gnrh1 primary transcript and Gnrh1 mRNA. Over-expression of either the sense or antisense mouse GnRH-E1 RNA in immature, migratory GnRH (GN11) neurons, which do not express either GnRH-E1 RNA or GnRH mRNA, induced the transcriptional activity of co-transfected rat Gnrh1 gene regulatory elements, where the induction requires the presence of the rat Gnrh1 promoter. Together, these data indicate that GnRH-E1 RNA is an inducer of Gnrh1 gene expression. GnRH-E1 RNA may play an important role in the development and maturation of GnRH neurons.

Published
2016

28. The transcriptome of a complete episode of acute otitis media

Author

Hernandez, Michelle, Leichtle, Anke, Pak, Kwang, Webster, Nicholas J, Wasserman, Stephen I, and Ryan, Allen F

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Otitis Media, Infectious Diseases, Biotechnology, Human Genome, Pediatric, Aetiology, Underpinning research, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Inflammatory and immune system, Acute Disease, Animals, Disease Models, Animal, Ear, Middle, Haemophilus Infections, Haemophilus influenzae, Humans, Immunity, Innate, Inflammation, Mice, Signal Transduction, Transcriptome, DNA microarray, Otitis media, Mouse, Innate immunity, Negative regulators, Gene regulation, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences
Abstract

BackgroundOtitis media is the most common disease of childhood, and represents an important health challenge to the 10-15% of children who experience chronic/recurrent middle ear infections. The middle ear undergoes extensive modifications during otitis media, potentially involving changes in the expression of many genes. Expression profiling offers an opportunity to discover novel genes and pathways involved in this common childhood disease. The middle ears of 320 WBxB6 F1 hybrid mice were inoculated with non-typeable Haemophilus influenzae (NTHi) or PBS (sham control). Two independent samples were generated for each time point and condition, from initiation of infection to resolution. RNA was profiled on Affymetrix mouse 430 2.0 whole-genome microarrays.ResultsApproximately 8% of the sampled transcripts defined the signature of acute NTHi-induced otitis media across time. Hierarchical clustering of signal intensities revealed several temporal gene clusters. Network and pathway enrichment analysis of these clusters identified sets of genes involved in activation of the innate immune response, negative regulation of immune response, changes in epithelial and stromal cell markers, and the recruitment/function of neutrophils and macrophages. We also identified key transcriptional regulators related to events in otitis media, which likely determine the expression of these gene clusters. A list of otitis media susceptibility genes, derived from genome-wide association and candidate gene studies, was significantly enriched during the early induction phase and the middle re-modeling phase of otitis but not in the resolution phase. Our results further indicate that positive versus negative regulation of inflammatory processes occur with highly similar kinetics during otitis media, underscoring the importance of anti-inflammatory responses in controlling pathogenesis.ConclusionsThe results characterize the global gene response during otitis media and identify key signaling and transcription factor networks that control the defense of the middle ear against infection. These networks deserve further attention, as dysregulated immune defense and inflammatory responses may contribute to recurrent or chronic otitis in children.

Published
2015

29. A Novel Letrozole Model Recapitulates Both the Reproductive and Metabolic Phenotypes of Polycystic Ovary Syndrome in Female Mice1

Author

Kauffman, Alexander S, Thackray, Varykina G, Ryan, Genevieve E, Tolson, Kristen P, Glidewell-Kenney, Christine A, Semaan, Sheila J, Poling, Matthew C, Iwata, Nahoko, Breen, Kellie M, Duleba, Antoni J, Stener-Victorin, Elisabet, Shimasaki, Shunichi, Webster, Nicholas J, and Mellon, Pamela L

Subjects
Reproductive Medicine, Biomedical and Clinical Sciences, Infertility, Contraception/Reproduction, Estrogen, Genetics, Obesity, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Aetiology, Underpinning research, Reproductive health and childbirth, Animals, Corpus Luteum, Diestrus, Enzyme Inhibitors, Estrous Cycle, Female, Hyperandrogenism, Hypothalamus, Kisspeptins, Letrozole, Mice, Mice, Inbred C57BL, Nitriles, Phenotype, Pituitary Gland, Polycystic Ovary Syndrome, Pregnancy, Reproduction, Testosterone, Triazoles, androgen, aromatase, female, GnRH, infertility, metabolism, obesity, ovary, PCOS, pituitary, reproduction, Biological Sciences, Medical and Health Sciences, Obstetrics & Reproductive Medicine, Animal production, Zoology, Reproductive medicine
Abstract

Polycystic ovary syndrome (PCOS) pathophysiology is poorly understood, due partly to lack of PCOS animal models fully recapitulating this complex disorder. Recently, a PCOS rat model using letrozole (LET), a nonsteroidal aromatase inhibitor, mimicked multiple PCOS phenotypes, including metabolic features absent in other models. Given the advantages of using genetic and transgenic mouse models, we investigated whether LET produces a similar PCOS phenotype in mice. Pubertal female C57BL/6N mice were treated for 5 wk with LET, which resulted in increased serum testosterone and normal diestrus levels of estradiol, similar to the hyperandrogenemia and follicular phase estrogen levels of PCOS women. As in PCOS, ovaries from LET mice were larger, polycystic, and lacked corpora lutea versus controls. Most LET females were acyclic, and all were infertile. LET females displayed elevated serum LH levels and higher Lhb mRNA in the pituitary. In contrast, serum FSH and Fshb were significantly reduced in LET females, demonstrating differential effects on gonadotropins, as in PCOS. Within the ovary, LET females had higher Cyp17, Cyp19, and Fsh receptor mRNA expression. In the hypothalamus, LET females had higher kisspeptin receptor mRNA expression but lower progesterone receptor mRNA levels. LET females also gained more weight than controls, had increased abdominal adiposity and adipocyte size, elevated adipose inflammatory mRNA levels, and impaired glucose tolerance, mirroring the metabolic phenotype in PCOS women. This is the first report of a LET paradigm in mice that recapitulates both reproductive and metabolic PCOS phenotypes and will be useful to genetically probe the PCOS condition.

Published
2015

30. Cyclic AMP concentrations in dendritic cells induce and regulate Th2 immunity and allergic asthma

Author

Lee, Jihyung, Kim, Tae Hoon, Murray, Fiona, Li, Xiangli, Choi, Sara S, Broide, David H, Corr, Maripat, Lee, Jongdae, Webster, Nicholas JG, Insel, Paul A, and Raz, Eyal

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Asthma, Lung, 1.1 Normal biological development and functioning, Aetiology, Underpinning research, 2.1 Biological and endogenous factors, Inflammatory and immune system, Adoptive Transfer, Animals, Chromogranins, Cyclic AMP, Dendritic Cells, GTP-Binding Protein alpha Subunits, Gs, Hypersensitivity, Mice, Th2 Cells, cAMP, dendritic cells, Th2, PKA, asthma
Abstract

The inductive role of dendritic cells (DC) in Th2 differentiation has not been fully defined. We addressed this gap in knowledge by focusing on signaling events mediated by the heterotrimeric GTP binding proteins Gαs, and Gαi, which respectively stimulate and inhibit the activation of adenylyl cyclases and the synthesis of cAMP. We show here that deletion of Gnas, the gene that encodes Gαs in mouse CD11c(+) cells (Gnas(ΔCD11c) mice), and the accompanying decrease in cAMP provoke Th2 polarization and yields a prominent allergic phenotype, whereas increases in cAMP inhibit these responses. The effects of cAMP on DC can be demonstrated in vitro and in vivo and are mediated via PKA. Certain gene products made by Gnas(ΔCD11c) DC affect the Th2 bias. These findings imply that G protein-coupled receptors, the physiological regulators of Gαs and Gαi activation and cAMP formation, act via PKA to regulate Th bias in DC and in turn, Th2-mediated immunopathologies.

Published
2015

31. Deletion of serine/arginine‐rich splicing factor 3 in hepatocytes predisposes to hepatocellular carcinoma in mice

Author

Sen, Supriya, Langiewicz, Magda, Jumaa, Hassan, and Webster, Nicholas JG

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Liver Disease, Genetics, Rare Diseases, Cancer, Liver Cancer, Chronic Liver Disease and Cirrhosis, Digestive Diseases, Aetiology, 2.1 Biological and endogenous factors, Animals, Biomarkers, Carcinoma, Hepatocellular, Case-Control Studies, Cell Line, Tumor, Epithelial-Mesenchymal Transition, Fatty Liver, Female, Hepatocytes, Humans, Lipodystrophy, Liver Cirrhosis, Liver Neoplasms, Male, Mice, Knockout, Proto-Oncogene Proteins c-myc, RNA Splicing, RNA-Binding Proteins, Serine-Arginine Splicing Factors, Somatomedins, beta Catenin, Medical Biochemistry and Metabolomics, Clinical Sciences, Immunology, Gastroenterology & Hepatology, Clinical sciences
Abstract

UnlabelledAlterations in RNA splicing are associated with cancer, but it is not clear whether they result from malignant transformation or have a causative role. We show here that hepatocyte-specific deletion of serine/arginine-rich splicing factor 3 (SRSF3) impairs hepatocyte maturation and metabolism in early adult life, and mice develop spontaneous hepatocellular carcinoma (HCC) with aging. Tumor development is preceded by chronic liver disease with progressive steatosis and fibrosis. SRSF3 protects mice against CCl4 -induced fibrosis and carcinogenesis and suppresses inclusion of the profibrogenic EDA exon in fibronectin 1. Loss of SRSF3 increases expression of insulin-like growth factor 2 and the A-isoform of the insulin receptor, allowing aberrant activation of mitogenic signaling, promotes aberrant splicing and expression of epithelial to mesenchymal transition (EMT) genes, and activates Wnt/β-catenin signaling leading to c-Myc induction. Finally, SRSF3 expression is either decreased or the protein mislocalized in human HCC.ConclusionOur data suggest a potential role for SRSF3 in preventing hepatic carcinogenesis by regulating splicing to suppress fibrosis, mitogenic splicing, and EMT. Thus, these mice may provide an attractive model to discover the pathogenic mechanisms linking aberrant pre-messenger RNA splicing with liver damage, fibrosis, and HCC.

Published
2015

32. C-Jun N-terminal kinase (JNK) isoforms play differing roles in otitis media

Author

Yao, William, Frie, Meredith, Pan, Jeffrey, Pak, Kwang, Webster, Nicholas, Wasserman, Stephen I, and Ryan, Allen F

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Pediatric, Otitis Media, Infectious Diseases, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Animals, Ear, Middle, Gene Expression Regulation, Enzymologic, Haemophilus influenzae, Hyperplasia, Isoenzymes, JNK Mitogen-Activated Protein Kinases, Leukocytes, MAP Kinase Signaling System, Mice, Inbred C57BL, Mucous Membrane, Middle ear, Nontypeable haemophilus influenzae, Infection, MAP kinase signaling, Tissue proliferation, Inflammation, Immunology
Abstract

BackgroundInnate immunity and tissue proliferation play important roles in otitis media (OM), the most common disease of childhood. CJUN terminal kinase (JNK) is potentially involved in both processes.ResultsGenes involved in both innate immune and growth factor activation of JNK are upregulated during OM, while expression of both positive and negative JNK regulatory genes is altered. When compared to wildtypes (WTs), C57BL/6 mice deficient in JNK1 exhibit enhanced mucosal thickening, with delayed recovery, enhanced neutrophil recruitment early in OM, and delayed bacterial clearance. In contrast, JNK2-/- mice exhibit delayed mucosal hyperplasia that eventually exceeds that of WTs and is slow to recover, delayed recruitment of neutrophils, and failure of bacterial clearance.ConclusionsThe results suggest that JNK1 and JNK2 play primarily opposing roles in mucosal hyperplasia and neutrophil recruitment early in OM. However, both isoforms are required for the normal resolution of middle ear infection.

Published
2014

34. Molecular Tumor Board: The University of California San Diego Moores Cancer Center Experience

Author

Schwaederle, Maria, Parker, Barbara A, Schwab, Richard B, Fanta, Paul T, Boles, Sarah G, Daniels, Gregory A, Bazhenova, Lyudmila A, Subramanian, Rupa, Coutinho, Alice C, Ojeda‐Fournier, Haydee, Datnow, Brian, Webster, Nicholas J, Lippman, Scott M, and Kurzrock, Razelle

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Human Genome, Rare Diseases, Cancer, Brain Disorders, Clinical Research, Genetics, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Good Health and Well Being, Aged, Disease-Free Survival, Female, Genome, Human, High-Throughput Nucleotide Sequencing, Humans, Male, Middle Aged, Neoplasms, Pathology, Molecular, Precision Medicine, Treatment Outcome, Molecular tumor board, Molecular profile, Personalized, Mutation, Oncology & Carcinogenesis, Oncology and carcinogenesis
Abstract

ObjectiveDNA sequencing tests are enabling physicians to interrogate the molecular profiles of patients' tumors, but most oncologists have not been trained in advanced genomics. We initiated a molecular tumor board to provide expert multidisciplinary input for these patients.Materials and methodsA team that included clinicians, basic scientists, geneticists, and bioinformatics/pathway scientists with expertise in various cancer types attended. Molecular tests were performed in a Clinical Laboratory Improvement Amendments environment.ResultsPatients (n = 34, since December 2012) had received a median of three prior therapies. The median time from physician order to receipt of molecular diagnostic test results was 27 days (range: 14-77 days). Patients had a median of 4 molecular abnormalities (range: 1-14 abnormalities) found by next-generation sequencing (182- or 236-gene panels). Seventy-four genes were involved, with 123 distinct abnormalities. Importantly, no two patients had the same aberrations, and 107 distinct abnormalities were seen only once. Among the 11 evaluable patients whose treatment had been informed by molecular diagnostics, 3 achieved partial responses (progression-free survival of 3.4 months, ≥6.5 months, and 7.6 months). The most common reasons for being unable to act on the molecular diagnostic results were that patients were ineligible for or could not travel to an appropriately targeted clinical trial and/or that insurance would not cover the cognate agents.ConclusionGenomic sequencing is revealing complex molecular profiles that differ by patient. Multidisciplinary molecular tumor boards may help optimize management. Barriers to personalized therapy include access to appropriately targeted drugs.

Published
2014

39. Abstract A123: Omega-3 fatty acids reduce mammary tumor growth in a mouse model of postmenopausal breast cancer

Author

Chung, Heekyung, Sears, Dorothy D, Webster, Nicholas J, Olefsky, Jerrold M, and Ellies, Lesley G

Subjects
Nutrition, Obesity, Prevention, Complementary and Integrative Health, Cancer, Breast Cancer, Prevention of disease and conditions, and promotion of well-being, 3.3 Nutrition and chemoprevention, 2.1 Biological and endogenous factors, Aetiology, Oncology and Carcinogenesis, Developmental Biology, Oncology & Carcinogenesis
Abstract

Abstract Obesity is a risk factor for postmenopausal breast cancer. Inflammation, hyperinsulinemia, insulin resistance and altered levels of adipokines have been proposed as possible links between obesity and tumor progression. Furthermore, the composition of fats in the diet can influence inflammation and epidemiological studies have shown that an increase in fish oil (omega-3 fatty acids; ω-3 FAs) intake is associated with a reduction in breast cancer incidence in humans. Several mechanisms have been proposed for the anticancer effect of ω-3 FAs such as suppression of neoplastic transformation, cell proliferation or angiogenesis, or an increase in apoptosis. To study the effects of ω-3 FA on mammary tumor growth in a mouse model of postmenopausal obesity, ovariectomized C57BL/6 mice were fed either a high fat diet (HFD, 60% kcal from fat) or an isocaloric HFD containing 30% ω-3 FA replacement [wt/wt, 24% docosahexaenoic acid (DHA), 6% eicosapentaneoic acid (EPA)]. Fourteen weeks after starting HFDs, mice received orthotopic mammary fat pad injections of Py230 cells derived from a spontaneous polyomavirus middle T antigen (PyVmT) mammary tumor. Mammary tumor growth, inflammatory cytokine expression in perigonadal fat and the mammary fat pads and tumors, and apoptosis and cell proliferation in the tumors were determined at 22 weeks following initiation of the HFDs. There was no difference in body weights between mice fed a HFD with or without ω-3 FA, but ω-3 FA-fed mice had a significantly reduced mammary tumor burden (33%) compared to counterpart HFD-fed mice. The ω-3 FA-fed mice showed decreased expression of macrophages and inflammatory cytokines such as CD11c, TNF-α and iNOS in perigonadal fat. However, surprisingly the ω-3 FA-fed mice showed increased macrophage and inflammatory cytokine expression: CD11c, TNF-α, IL-1β and IL-6 in the mammary fat pads implanted with tumor cells, suggesting that the anti-inflammatory effect of ω-3 FAs may be modulated by implanted tumor cells. No difference was observed in the expression of macrophage marker and inflammatory cytokines in mammary tumors between mice fed a HFD with or without ω-3 FA. Immunohistochemical staining of mammary tumors revealed a high degree of variability in cell proliferation and apoptosis between tumors and no significant differences were observed. To examine whether ω-3 FAs may act directly on Py230 tumor cells to reduce mammary tumor growth, we tested the effects of ω-3 FA on cell growth, apoptosis and signaling in Py230 cells in vitro. DHA significantly inhibited Py230 cell growth in a dose-dependent manner. In addition, DHA inhibited TNF-α-induced cell growth and blocked NF-κB signaling activated by TNF-α in Py230 cells. Furthermore, DHA increased the activities of caspases 3 and 7 and induced apoptosis in Py230 cells. Our results suggest that ω-3 FAs may suppress mammary tumor growth by directly inhibiting the growth of mammary tumor cells via induction of apoptosis. Further analysis of the signaling pathways involved may identify new therapeutic targets for postmenopausal women with breast cancer. Citation Format: Heekyung Chung, Dorothy D. Sears, Nicholas J. Webster, Jerrold M. Olefsky, Lesley G. Ellies. Omega-3 fatty acids reduce mammary tumor growth in a mouse model of postmenopausal breast cancer. [abstract]. In: Proceedings of the AACR Special Conference on Advances in Breast Cancer Research: Genetics, Biology, and Clinical Applications; Oct 3-6, 2013; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Res 2013;11(10 Suppl):Abstract nr A123.

Published
2013

43. Small molecule activators of the Trk receptors for neuroprotection.

Author

Webster, Nicholas JG and Pirrung, Michael C

Subjects
Neurons, Animals, Humans, Alzheimer Disease, Nerve Degeneration, Receptors, Nerve Growth Factor, Neuroprotective Agents, Ligands, Receptors, Nerve Growth Factor, Neurology & Neurosurgery, Biochemistry and Cell Biology, Neurosciences, Cognitive Sciences
Abstract

The neurotrophin signaling network is critical to the development and survival of many neuronal populations. Especially sensitive to imbalances in the neurotrophin system, cholinergic neurons in the basal forebrain are progressively lost in Alzheimer's disease. Therapeutic use of neurotrophins to prevent this loss is hampered, however, by a number of pharmacological challenges. These include a lack of transport across the blood-brain barrier, rapid degradation in the circulation, and difficulty in production. In this review we discuss the evidence supporting the neurotrophin system's role in preventing neurodegeneration and survey some of the pharmacological strategies being pursued to develop effective therapeutics targeting neurotrophin function.

Published
2008

44. Quinone replacements for small molecule insulin mimics.

Author

Pirrung, Michael C, Deng, Liu, Lin, Bo, and Webster, Nicholas J G

Subjects
kojic acid, peptide mimics, pyridone, pyrone
Abstract

A 3-stannylindole was coupled with a 2-bromokojic acid to give an (indolyl)kojic acid that activates the insulin receptor in cell-based assays. This structure represents a hybrid between two Aspergillus natural products, demethylasterriquinone B1 and kojic acid.

Published
2008

47. Contributors

Author

Abdullahi, R., primary, Ajala-Lawal, R.A., additional, Ajiboye, T.O., additional, Alegret, Marta, additional, Awuah, Enoch Ofori, additional, Baba, Hideo, additional, Bariuan, Jussiaea Valente, additional, Bayoglu, Burcu, additional, Bo-Htay, Cherry, additional, Caramelo, Julio Javier, additional, Casique, Liliana, additional, Chattipakorn, Siriporn C., additional, Chattipakorn, Nipon, additional, Chicco, Adriana, additional, Cornejo, Verónica, additional, Couto, Paula Monserrat, additional, Creus, Agustina, additional, De Lucca, Marisel, additional, Abd Eldaim, Mabrouk Attia, additional, Fernandez, Marina O., additional, Finelli, Carmine, additional, Gyamfi, Daniel, additional, Haslam, Danielle E., additional, Higuchi, Mitsuru, additional, Holst, Jens J., additional, Iizuka, Katsumi, additional, Jamialahmadi, Khadijeh, additional, Kimura, Kazuhiro, additional, Laguna, Juan Carlos, additional, Lee, Allen A., additional, Lombardo, Yolanda B., additional, Ma, Jiantao, additional, Maarman, Gerald J., additional, Masson, Jesse James Ronald, additional, Matsuoka, Shinya, additional, McKeown, Nicola M., additional, Mithieux, Gilles, additional, Munetsuna, Eiji, additional, Nakagiri, Shohei, additional, Navale, Archana, additional, Ohashi, Koji, additional, Okamatsu-Ogura, Yuko, additional, Oliva, María Eugenia, additional, Owusu, Stephen, additional, Owyang, Chung, additional, Palmer, Clovis Steve, additional, Rajas, Fabienne, additional, Roglans, Núria, additional, Sangüesa, Gemma, additional, Sawayama, Hiroshi, additional, Shwe, Thazin, additional, Tanisawa, Kumpei, additional, Veedfald, Simon, additional, Webster, Nicholas J.G., additional, Wewer Albrechtsen, Nicolai J., additional, Yamada, Hiroya, additional, and Yamazaki, Mirai, additional

Published
2019
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50. Loss of cAMP signaling in CD11c immune cells protects against diet-induced obesity

Author

Zeng, Liping, primary, Scott Herdman, D., primary, Min Lee, Sung, primary, Tao, Ailin, primary, Das, Manasi, primary, Bertin, Samuel, primary, Eckmann, Lars, primary, Mahata, Sushil, primary, Wu, Panyisha, primary, Hara, Miki, primary, Byun, Ji-Won, primary, Devulapalli, Shwetha, primary, H. Patel, Hemal, primary, J.A. Molina, Anthony, primary, Osborn, Olivia, primary, Corr, Maripat, primary, Raz, Eyal, primary, and J.G. Webster, Nicholas, primary

Published
2023
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