Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes

OBJECTIVE: Lifelong insulin replacement remains the mainstay of type 1 diabetes treatment. Genetic FoxO1 ablation promotes enteroendocrine cell (EECs) conversion into glucose-responsive β-like cells. Here, we tested whether chemical FoxO1 inhibitors can generate β-like gut cells. METHODS: We used Ng...

Descripción completa

Detalles Bibliográficos
Autores principales: Kitamoto, Takumi, Lee, Yun-Kyoung, Sultana, Nishat, Watanabe, Hitoshi, McKimpson, Wendy M., Du, Wen, Fan, Jason, Diaz, Bryan, Lin, Hua V., Leibel, Rudolph L., Belvedere, Sandro, Accili, Domenico
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9664469/
https://www.ncbi.nlm.nih.gov/pubmed/36341906
http://dx.doi.org/10.1016/j.molmet.2022.101624
_version_ 1784831107324182528
author Kitamoto, Takumi
Lee, Yun-Kyoung
Sultana, Nishat
Watanabe, Hitoshi
McKimpson, Wendy M.
Du, Wen
Fan, Jason
Diaz, Bryan
Lin, Hua V.
Leibel, Rudolph L.
Belvedere, Sandro
Accili, Domenico
author_facet Kitamoto, Takumi
Lee, Yun-Kyoung
Sultana, Nishat
Watanabe, Hitoshi
McKimpson, Wendy M.
Du, Wen
Fan, Jason
Diaz, Bryan
Lin, Hua V.
Leibel, Rudolph L.
Belvedere, Sandro
Accili, Domenico
author_sort Kitamoto, Takumi
collection PubMed
description OBJECTIVE: Lifelong insulin replacement remains the mainstay of type 1 diabetes treatment. Genetic FoxO1 ablation promotes enteroendocrine cell (EECs) conversion into glucose-responsive β-like cells. Here, we tested whether chemical FoxO1 inhibitors can generate β-like gut cells. METHODS: We used Ngn3-or Villin-driven FoxO1 ablation to capture the distinctive developmental effects of FoxO1 on EEC pool. We combined FoxO1 ablation with Notch inhibition to enhance the expansion of EEC pool. We tested the ability of an orally available small molecule of FoxO1 inhibitor, Cpd10, to phenocopy genetic ablation of FoxO1. We evaluated the therapeutic impact of genetic ablation or chemical inhibition of FoxO1 on insulin-deficient diabetes in Ins2(Akita/+) mice. RESULTS: Pan-intestinal epithelial FoxO1 ablation expanded the EEC pool, induced β-like cells, and improved glucose tolerance in Ins2(Akita/+) mice. This genetic effect was phenocopied by Cpd10. Cpd10 induced β-like cells that released insulin in response to glucose in gut organoids, and this effect was enhanced by the Notch inhibitor, DBZ. In Ins2(Akita/+) mice, a five-day course of either Cpd10 or DBZ induced intestinal insulin-immunoreactive β-like cells, lowered glycemia, and increased plasma insulin levels without apparent adverse effects. CONCLUSION: These results provide proof of principle of gut cell conversion into β-like cells by a small molecule FoxO1 inhibitor, paving the way for clinical applications.
format Online
Article
Text
id pubmed-9664469
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher Elsevier
record_format MEDLINE/PubMed
spelling pubmed-96644692022-11-15 Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes Kitamoto, Takumi Lee, Yun-Kyoung Sultana, Nishat Watanabe, Hitoshi McKimpson, Wendy M. Du, Wen Fan, Jason Diaz, Bryan Lin, Hua V. Leibel, Rudolph L. Belvedere, Sandro Accili, Domenico Mol Metab Original Article OBJECTIVE: Lifelong insulin replacement remains the mainstay of type 1 diabetes treatment. Genetic FoxO1 ablation promotes enteroendocrine cell (EECs) conversion into glucose-responsive β-like cells. Here, we tested whether chemical FoxO1 inhibitors can generate β-like gut cells. METHODS: We used Ngn3-or Villin-driven FoxO1 ablation to capture the distinctive developmental effects of FoxO1 on EEC pool. We combined FoxO1 ablation with Notch inhibition to enhance the expansion of EEC pool. We tested the ability of an orally available small molecule of FoxO1 inhibitor, Cpd10, to phenocopy genetic ablation of FoxO1. We evaluated the therapeutic impact of genetic ablation or chemical inhibition of FoxO1 on insulin-deficient diabetes in Ins2(Akita/+) mice. RESULTS: Pan-intestinal epithelial FoxO1 ablation expanded the EEC pool, induced β-like cells, and improved glucose tolerance in Ins2(Akita/+) mice. This genetic effect was phenocopied by Cpd10. Cpd10 induced β-like cells that released insulin in response to glucose in gut organoids, and this effect was enhanced by the Notch inhibitor, DBZ. In Ins2(Akita/+) mice, a five-day course of either Cpd10 or DBZ induced intestinal insulin-immunoreactive β-like cells, lowered glycemia, and increased plasma insulin levels without apparent adverse effects. CONCLUSION: These results provide proof of principle of gut cell conversion into β-like cells by a small molecule FoxO1 inhibitor, paving the way for clinical applications. Elsevier 2022-10-28 /pmc/articles/PMC9664469/ /pubmed/36341906 http://dx.doi.org/10.1016/j.molmet.2022.101624 Text en © 2022 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Original Article
Kitamoto, Takumi
Lee, Yun-Kyoung
Sultana, Nishat
Watanabe, Hitoshi
McKimpson, Wendy M.
Du, Wen
Fan, Jason
Diaz, Bryan
Lin, Hua V.
Leibel, Rudolph L.
Belvedere, Sandro
Accili, Domenico
Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes
title Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes
title_full Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes
title_fullStr Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes
title_full_unstemmed Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes
title_short Chemical induction of gut β-like-cells by combined FoxO1/Notch inhibition as a glucose-lowering treatment for diabetes
title_sort chemical induction of gut β-like-cells by combined foxo1/notch inhibition as a glucose-lowering treatment for diabetes
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9664469/
https://www.ncbi.nlm.nih.gov/pubmed/36341906
http://dx.doi.org/10.1016/j.molmet.2022.101624
work_keys_str_mv AT kitamototakumi chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT leeyunkyoung chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT sultananishat chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT watanabehitoshi chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT mckimpsonwendym chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT duwen chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT fanjason chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT diazbryan chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT linhuav chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT leibelrudolphl chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT belvederesandro chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes
AT accilidomenico chemicalinductionofgutblikecellsbycombinedfoxo1notchinhibitionasaglucoseloweringtreatmentfordiabetes

Ejemplares similares