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7 results on '"Dean, Adam M."'

1. A human liver chimeric mouse model for non-alcoholic fatty liver disease.

Author

Bissig-Choisat, Beatrice, Alves-Bezerra, Michele, Zorman, Barry, Ochsner, Scott A, Barzi, Mercedes, Legras, Xavier, Yang, Diane, Borowiak, Malgorzata, Dean, Adam M, York, Robert B, Galvan, N Thao N, Goss, John, Lagor, William R, Moore, David D, Cohen, David E, McKenna, Neil J, Sumazin, Pavel, and Bissig, Karl-Dimiter

Subjects
ALP, alkaline phosphatase, ALT, alanine aminotransferase, AST, aspartate aminotransferase, CBPEGs, cholesterol biosynthesis pathway enzyme genes, CE, cholesteryl ester, CER, ceramide, CHHs, chimeric human hepatocytes, CMHs, chimeric mouse hepatocytes, CT, confidence transcript, DAG, diacylglycerol, DCER, dihydroceramide, DEG, differentially expressed gene, FA, fatty acid, FAH, fumarylacetoacetate hydrolase, FFA, free fatty acid, GGT, gamma-glutamyl transpeptidase, HCC, hepatocellular carcinoma, HCER, hexosylceramide, HCT, high confidence transcriptional target, Human disease modelling, Humanised mice, LCER, lactosylceramide, LPC, lysophosphatidylcholine, LPE, lysophosphatidylethanolamine, Lipid metabolism, MAG, monoacylglycerol, MUFA, monounsaturated fatty acid, NAFLD, non-alcoholic fatty liver disease, NASH, non-alcoholic steatohepatitis, NC, normal chow, NTBC, nitisinone, Non-alcoholic fatty liver disease, PC, phosphatidylcholine, PE, phosphatidylethanolamine, PI, phosphatidylinositol, PNPLA3, patatin-like-phospholipase domain-containing protein 3, PUFA, polyunsaturated free FA, SM, sphingomyelin, SREBP, sterol regulatory element-binding protein, Steatosis, TAG, triacylglycerol, TIRF, transgene-free Il2rg-/-/Rag2-/-/Fah-/-, WD, Western-type diet, hALB, human albumin, ALP, alkaline phosphatase, ALT, alanine aminotransferase, AST, aspartate aminotransferase, CBPEGs, cholesterol biosynthesis pathway enzyme genes, CE, cholesteryl ester, CER, ceramide, CHHs, chimeric human hepatocytes, CMHs, chimeric mouse hepatocytes, CT, confidence transcript, DAG, diacylglycerol, DCER, dihydroceramide, DEG, differentially expressed gene, FA, fatty acid, FAH, fumarylacetoacetate hydrolase, FFA, free fatty acid, GGT, gamma-glutamyl transpeptidase, HCC, hepatocellular carcinoma, HCER, hexosylceramide, HCT, high confidence transcriptional target, LCER, lactosylceramide, LPC, lysophosphatidylcholine, LPE, lysophosphatidylethanolamine, MAG, monoacylglycerol, MUFA, monounsaturated fatty acid, NAFLD, non-alcoholic fatty liver disease, NASH, non-alcoholic steatohepatitis, NC, normal chow, NTBC, nitisinone, PC, phosphatidylcholine, PE, phosphatidylethanolamine, PI, phosphatidylinositol, PNPLA3, patatin-like-phospholipase domain-containing protein 3, PUFA, polyunsaturated free FA, SM, sphingomyelin, SREBP, sterol regulatory element-binding protein, TAG, triacylglycerol, TIRF, transgene-free Il2rg-/-/Rag2-/-/Fah-/-, WD, Western-type diet, hALB, human albumin
Abstract

Background & aimsThe accumulation of neutral lipids within hepatocytes underlies non-alcoholic fatty liver disease (NAFLD), which affects a quarter of the world's population and is associated with hepatitis, cirrhosis, and hepatocellular carcinoma. Despite insights gained from both human and animal studies, our understanding of NAFLD pathogenesis remains limited. To better study the molecular changes driving the condition we aimed to generate a humanised NAFLD mouse model.MethodsWe generated TIRF (transgene-free Il2rg -/-/Rag2 -/-/Fah -/-) mice, populated their livers with human hepatocytes, and fed them a Western-type diet for 12 weeks.ResultsWithin the same chimeric liver, human hepatocytes developed pronounced steatosis whereas murine hepatocytes remained normal. Unbiased metabolomics and lipidomics revealed signatures of clinical NAFLD. Transcriptomic analyses showed that molecular responses diverged sharply between murine and human hepatocytes, demonstrating stark species differences in liver function. Regulatory network analysis indicated close agreement between our model and clinical NAFLD with respect to transcriptional control of cholesterol biosynthesis.ConclusionsThese NAFLD xenograft mice reveal an unexpected degree of evolutionary divergence in food metabolism and offer a physiologically relevant, experimentally tractable model for studying the pathogenic changes invoked by steatosis.Lay summaryFatty liver disease is an emerging health problem, and as there are no good experimental animal models, our understanding of the condition is poor. We here describe a novel humanised mouse system and compare it with clinical data. The results reveal that the human cells in the mouse liver develop fatty liver disease upon a Western-style fatty diet, whereas the mouse cells appear normal. The molecular signature (expression profiles) of the human cells are distinct from the mouse cells and metabolic analysis of the humanised livers mimic the ones observed in humans with fatty liver. This novel humanised mouse system can be used to study human fatty liver disease.

Published
2021

5. Steroid receptor coactivator 3 is a key modulator of regulatory T cell-mediated tumor evasion.

Author

Sang Jun Han, Jain, Prashi, Gilad, Yosef, Yan Xia, Nuri Sung, Mi Jin Park, Dean, Adam M., Lanz, Rainer B., Jianming Xu, Dacso, Clifford C., Lonard, David M., and O'Malley, Bert W.

Subjects
STEROID receptors, KILLER cells, REGULATORY T cells, IMMUNOMODULATORS, CYTOTOXIC T cells, TAX evasion
Abstract

Steroid receptor coactivator 3 (SRC-3) is most strongly expressed in regulatory T cells (Tregs) and B cells, suggesting that it plays an important role in the regulation of Treg function. Using an aggressive E0771 mouse breast cell line syngeneic immune-intact murine model, we observed that breast tumors were "permanently eradicated" in a genetically engineered tamoxifen-inducible Treg-cell-specific SRC-3 knockout (KO) female mouse that does not possess a systemic autoimmune pathological phenotype. A similar eradication of tumor was noted in a syngeneic model of prostate cancer. A subsequent injection of additional E0771 cancer cells into these mice showed continued resistance to tumor development without the need for tamoxifen induction to produce additional SRC-3 KO Tregs. SRC-3 KO Tregs were highly proliferative and preferentially infiltrated into breast tumors by activating the chemokine (C-C motif) ligand (Ccl) 19/Ccl21/chemokine (C-C motif) receptor (Ccr)7 signaling axis, generating antitumor immunity by enhancing the interferon-γ/C-X-C motif chemokine ligand (Cxcl) 9 signaling axis to facilitate the entrance and function of effector T cells and natural killer cells. SRC-3 KO Tregs also show a dominant effect by blocking the immune suppressive function of WT Tregs. Importantly, a single adoptive transfer of SRC-3 KO Tregs into wild-type E0771 tumor-bearing mice can completely abolish preestablished breast tumors by generating potent antitumor immunity with a durable effect that prevents tumor reoccurrence. Therefore, treatment with SRC-3-deleted Tregs represents an approach to completely block tumor growth and recurrence without the side effects that typically accompany immune checkpoint modulators. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Steroid receptor coactivator 3 is a key modulator of regulatory T cell-mediated tumor evasion.

Author

Han SJ, Jain P, Gilad Y, Xia Y, Sung N, Park MJ, Dean AM, Lanz RB, Xu J, Dacso CC, Lonard DM, and O'Malley BW

Subjects
Animals, Female, Male, Mice, Ligands, Mice, Knockout, T-Lymphocytes, Regulatory, Tamoxifen pharmacology, Breast Neoplasms, Mammary Neoplasms, Animal, Nuclear Receptor Coactivator 3 genetics
Abstract

Steroid receptor coactivator 3 (SRC-3) is most strongly expressed in regulatory T cells (Tregs) and B cells, suggesting that it plays an important role in the regulation of Treg function. Using an aggressive E0771 mouse breast cell line syngeneic immune-intact murine model, we observed that breast tumors were "permanently eradicated" in a genetically engineered tamoxifen-inducible Treg-cell-specific SRC-3 knockout (KO) female mouse that does not possess a systemic autoimmune pathological phenotype. A similar eradication of tumor was noted in a syngeneic model of prostate cancer. A subsequent injection of additional E0771 cancer cells into these mice showed continued resistance to tumor development without the need for tamoxifen induction to produce additional SRC-3 KO Tregs. SRC-3 KO Tregs were highly proliferative and preferentially infiltrated into breast tumors by activating the chemokine (C-C motif) ligand (Ccl) 19/Ccl21/chemokine (C-C motif) receptor (Ccr)7 signaling axis, generating antitumor immunity by enhancing the interferon-γ/C-X-C motif chemokine ligand (Cxcl) 9 signaling axis to facilitate the entrance and function of effector T cells and natural killer cells. SRC-3 KO Tregs also show a dominant effect by blocking the immune suppressive function of WT Tregs. Importantly, a single adoptive transfer of SRC-3 KO Tregs into wild-type E0771 tumor-bearing mice can completely abolish preestablished breast tumors by generating potent antitumor immunity with a durable effect that prevents tumor reoccurrence. Therefore, treatment with SRC-3-deleted Tregs represents an approach to completely block tumor growth and recurrence without the autoimmune side effects that typically accompany immune checkpoint modulators.

Published
2023
Full Text
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