Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice

Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice

Postnatal intestinal ontogenesis in an animal model of diabesity may recapitulate morphological and transduction features of diabesity-induced intestinal dysplasia and its amelioration by endogenous (n-3) polyunsaturated fatty acids (PUFA). Proliferation, differentiation, and transduction aspects of...

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Main Authors: Anna Algamas-Dimantov, Dana Davidovsky, Julius Ben-Ari, Jing X. Kang, Irena Peri, Rachel Hertz, Jacob Bar-Tana, Betty Schwartz
Format: Article
Language:English
Published: Elsevier 2012-06-01
Series:Journal of Lipid Research
Subjects:
obesity
diabetes
epithelial cell growth
epithelial cell differentiation
colorectal neoplasia
Online Access:http://www.sciencedirect.com/science/article/pii/S0022227520316990
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spelling doaj-ce523612b7554d819e6513f5b5bd7e7f2021-04-28T05:57:44ZengElsevierJournal of Lipid Research0022-22752012-06-0153610561070Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in miceAnna Algamas-Dimantov0Dana Davidovsky1Julius Ben-Ari2Jing X. Kang3Irena Peri4Rachel Hertz5Jacob Bar-Tana6Betty Schwartz7Institute of Biochemistry, Food Science, and Nutrition Equipment Facility, Robert H. Smith Faculty of Agriculture, Food, and Environment, Hebrew University of Jerusalem, Jerusalem, IsraelInstitute of Biochemistry, Food Science, and Nutrition Equipment Facility, Robert H. Smith Faculty of Agriculture, Food, and Environment, Hebrew University of Jerusalem, Jerusalem, IsraelInterdepartmental Equipment Facility, Robert H. Smith Faculty of Agriculture, Food, and Environment, Hebrew University of Jerusalem, Jerusalem, IsraelLaboratory for Lipid Medicine and Technology, Massachusetts General Hospital and Harvard Medical School, Boston, MA; andInstitute of Biochemistry, Food Science, and Nutrition Equipment Facility, Robert H. Smith Faculty of Agriculture, Food, and Environment, Hebrew University of Jerusalem, Jerusalem, IsraelDepartment of Human Nutrition and Metabolism, Hebrew University Medical School, Jerusalem, IsraelDepartment of Human Nutrition and Metabolism, Hebrew University Medical School, Jerusalem, IsraelTo whom correspondence should be addressed.; Institute of Biochemistry, Food Science, and Nutrition Equipment Facility, Robert H. Smith Faculty of Agriculture, Food, and Environment, Hebrew University of Jerusalem, Jerusalem, Israel; To whom correspondence should be addressed.Postnatal intestinal ontogenesis in an animal model of diabesity may recapitulate morphological and transduction features of diabesity-induced intestinal dysplasia and its amelioration by endogenous (n-3) polyunsaturated fatty acids (PUFA). Proliferation, differentiation, and transduction aspects of intestinal ontogenesis have been studied here in obese, insulin-resistant db/db mice, in fat-1 transgene coding for desaturation of (n-6) PUFA into (n-3) PUFA, in db/db crossed with fat-1 mice, and in control mice. Diabesity resulted in increased colonic proliferation and dedifferentiation of epithelial colonocytes and goblet cells, with increased colonic β-catenin and hepatocyte nuclear factor (HNF)-4α transcriptional activities accompanied by enrichment in HNF-4α–bound (n-6) PUFA. In contrast, in fat-1 mice, colonic proliferation was restrained, accompanied by differentiation of crypt stem cells into epithelial colonocytes and goblet cells and by decrease in colonic β-catenin and HNF-4α transcriptional activities, with concomitant enrichment in HNF-4α-bound (n-3) PUFA at the expense of (n-6) PUFA. Colonic proliferation and differentiation, the profile of β-catenin and HNF-4α-responsive genes, and the composition of HNF-4α-bound PUFA of db/db mice reverted to wild-type by introducing the fat-1 gene into the db/db context. Suppression of intestinal HNF-4α activity by (n-3) PUFA may ameliorate diabesity-induced intestinal ontogenesis and offer an effective preventive modality for colorectal cancer.http://www.sciencedirect.com/science/article/pii/S0022227520316990obesitydiabetesepithelial cell growthepithelial cell differentiationcolorectal neoplasia
collection DOAJ
language English
format Article
sources DOAJ
author Anna Algamas-Dimantov
Dana Davidovsky
Julius Ben-Ari
Jing X. Kang
Irena Peri
Rachel Hertz
Jacob Bar-Tana
Betty Schwartz
spellingShingle Anna Algamas-Dimantov
Dana Davidovsky
Julius Ben-Ari
Jing X. Kang
Irena Peri
Rachel Hertz
Jacob Bar-Tana
Betty Schwartz
Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice
Journal of Lipid Research
obesity
diabetes
epithelial cell growth
epithelial cell differentiation
colorectal neoplasia
author_facet Anna Algamas-Dimantov
Dana Davidovsky
Julius Ben-Ari
Jing X. Kang
Irena Peri
Rachel Hertz
Jacob Bar-Tana
Betty Schwartz
author_sort Anna Algamas-Dimantov
title Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice
title_short Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice
title_full Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice
title_fullStr Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice
title_full_unstemmed Amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice
title_sort amelioration of diabesity-induced colorectal ontogenesis by omega-3 fatty acids in mice
publisher Elsevier
series Journal of Lipid Research
issn 0022-2275
publishDate 2012-06-01
description Postnatal intestinal ontogenesis in an animal model of diabesity may recapitulate morphological and transduction features of diabesity-induced intestinal dysplasia and its amelioration by endogenous (n-3) polyunsaturated fatty acids (PUFA). Proliferation, differentiation, and transduction aspects of intestinal ontogenesis have been studied here in obese, insulin-resistant db/db mice, in fat-1 transgene coding for desaturation of (n-6) PUFA into (n-3) PUFA, in db/db crossed with fat-1 mice, and in control mice. Diabesity resulted in increased colonic proliferation and dedifferentiation of epithelial colonocytes and goblet cells, with increased colonic β-catenin and hepatocyte nuclear factor (HNF)-4α transcriptional activities accompanied by enrichment in HNF-4α–bound (n-6) PUFA. In contrast, in fat-1 mice, colonic proliferation was restrained, accompanied by differentiation of crypt stem cells into epithelial colonocytes and goblet cells and by decrease in colonic β-catenin and HNF-4α transcriptional activities, with concomitant enrichment in HNF-4α-bound (n-3) PUFA at the expense of (n-6) PUFA. Colonic proliferation and differentiation, the profile of β-catenin and HNF-4α-responsive genes, and the composition of HNF-4α-bound PUFA of db/db mice reverted to wild-type by introducing the fat-1 gene into the db/db context. Suppression of intestinal HNF-4α activity by (n-3) PUFA may ameliorate diabesity-induced intestinal ontogenesis and offer an effective preventive modality for colorectal cancer.
topic obesity
diabetes
epithelial cell growth
epithelial cell differentiation
colorectal neoplasia
url http://www.sciencedirect.com/science/article/pii/S0022227520316990
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