Fishing for small molecules to treat diabetes, from a beta cell perspective
Author: Ren, Lipeng
Date: 2023-12-08
Location: Ragnar Granit, Biomedicum 3, Solnavägen 9, Solna
Time: 13.00
Department: Inst för cell- och molekylärbiologi / Dept of Cell and Molecular Biology
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Thesis (487.5Kb)
Abstract
Maintenance of glucose homeostasis necessitates a precise control of insulin secretion. Pancreatic β cells sense fluctuation of blood glucose and secret insulin in response. However, functional β cell mass is decreased in diabetes. Here, to recover functional β cell mass, we use zebrafish as a model to perform in vivo drug discovery.
In paper I, to discover drugs that could expand β cell mass through proliferation, we performed an in vivo screen in zebrafish based on a luminescence ubiquitination-based cell cycle indicator (LUCCI), identified a small molecule called HG-9-91-01, an inhibitor of salt-inducible kinases (SIKs), as a mitogen of mouse and human β cells. Mechanistic studies found HG-9-91-01 induced a transient upregulation of ATF6-dependent unfolded protein response (UPR), which together with other downstream effectors including CRTC1, CRTC2, mTOR and IRE1 led to a mitogenic response in β cells.
In paper II, to discover drugs that could increase β cell mass from other origins, we performed in vivo screening in zebrafish for stimulators that convert glucagon-expressing ⍺ cells, somatostatin-expressing ẟ cells, and elastase-expressing acinar cells to β cells. 4 hits were identified in the screens and shown to promote β cell regeneration as well as reduce glucose in zebrafish with β cell ablation. However, only one hit called A-674563 induced a modest increase in reprogramming of ⍺ cells to β cells in lineage tracing experiments, whereas the other hits failed to promote reprogramming. Spontaneous conversion of ⍺- or ẟ- cells to β cells was rare, and no conversion of acinar cells to β cells was observed during β cell regeneration. Together, reprogramming of other pancreatic cells to β cells is rare and difficult to stimulate by small molecules in zebrafish.
In paper III, a small molecule called Adjudin, identified in paper II, was discovered to promote β cell function in zebrafish. In translational studies using in vitro cultured mouse islets, we found that Adjudin promoted functional maturation of isolated islets from postnatal day 0 (P0) mice, as they gained capability of glucose responsive insulin secretion; Adjudin also improved recovery of islets from a type 2 diabetic mouse model. Moreover, Adjudin stimulated hepatic glucose uptake, an effect we further found largely independent of insulin in zebrafish and validated in primary human hepatocyte (PHH) formed spheroids with insulin resistance. Next, we examined Adjudin in a type 2 diabetic mouse model (db/db mice), observed improved glucose homeostasis in the mice that received Adjudin treatment. Together, Adjudin may serve as a potential therapeutic drug for diabetes.
To summarize, using in vivo drug screening in zebrafish, we identified small molecules that could either expand β cell mass or promote β cell function, such findings may pave the way for future research and development of a novel treatment for diabetes.
In paper I, to discover drugs that could expand β cell mass through proliferation, we performed an in vivo screen in zebrafish based on a luminescence ubiquitination-based cell cycle indicator (LUCCI), identified a small molecule called HG-9-91-01, an inhibitor of salt-inducible kinases (SIKs), as a mitogen of mouse and human β cells. Mechanistic studies found HG-9-91-01 induced a transient upregulation of ATF6-dependent unfolded protein response (UPR), which together with other downstream effectors including CRTC1, CRTC2, mTOR and IRE1 led to a mitogenic response in β cells.
In paper II, to discover drugs that could increase β cell mass from other origins, we performed in vivo screening in zebrafish for stimulators that convert glucagon-expressing ⍺ cells, somatostatin-expressing ẟ cells, and elastase-expressing acinar cells to β cells. 4 hits were identified in the screens and shown to promote β cell regeneration as well as reduce glucose in zebrafish with β cell ablation. However, only one hit called A-674563 induced a modest increase in reprogramming of ⍺ cells to β cells in lineage tracing experiments, whereas the other hits failed to promote reprogramming. Spontaneous conversion of ⍺- or ẟ- cells to β cells was rare, and no conversion of acinar cells to β cells was observed during β cell regeneration. Together, reprogramming of other pancreatic cells to β cells is rare and difficult to stimulate by small molecules in zebrafish.
In paper III, a small molecule called Adjudin, identified in paper II, was discovered to promote β cell function in zebrafish. In translational studies using in vitro cultured mouse islets, we found that Adjudin promoted functional maturation of isolated islets from postnatal day 0 (P0) mice, as they gained capability of glucose responsive insulin secretion; Adjudin also improved recovery of islets from a type 2 diabetic mouse model. Moreover, Adjudin stimulated hepatic glucose uptake, an effect we further found largely independent of insulin in zebrafish and validated in primary human hepatocyte (PHH) formed spheroids with insulin resistance. Next, we examined Adjudin in a type 2 diabetic mouse model (db/db mice), observed improved glucose homeostasis in the mice that received Adjudin treatment. Together, Adjudin may serve as a potential therapeutic drug for diabetes.
To summarize, using in vivo drug screening in zebrafish, we identified small molecules that could either expand β cell mass or promote β cell function, such findings may pave the way for future research and development of a novel treatment for diabetes.
List of papers:
I. In vivo screen identifies a SIK inhibitor that induces β cell proliferation through a transient UPR. Jérémie Charbord, Lipeng Ren*, Rohit B. Sharma*, Anna Johansson, Rasmus Ågren, Lianhe Chu, Dominika Tworus, Nadja Schulz, Pierre Charbord, Andrew F. Stewart, Peng Wang, Laura C. Alonso & Olov Andersson. Nature metabolism. 2021 May; 3(5):682-700. *These authors had equal contribution to the work.
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II. In vivo screening for small molecules promoting cellular reprogramming to insulin-producing β-cells. Lipeng Ren*, Jérémie Charbord*, Lianhe Chu, Nicole Schmitner, Jiarui Mi, Ka-Cheuk Liu, Dominika Tworus, Olov Andersson. *These authors had equal contribution to the work. [Manuscript]
III. Adjudin improves beta cell maturation, hepatic glucose uptake and glucose homeostasis. Lipeng Ren, Jérémie Charbord, Lianhe Chu, Aurino M Kemas, Maria Bertuzzi, Jiarui Mi, Chen Xing, Volker M Lauschke, Olov Andersson. Diabetologia. 2023 Oct.
Fulltext (DOI)
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I. In vivo screen identifies a SIK inhibitor that induces β cell proliferation through a transient UPR. Jérémie Charbord, Lipeng Ren*, Rohit B. Sharma*, Anna Johansson, Rasmus Ågren, Lianhe Chu, Dominika Tworus, Nadja Schulz, Pierre Charbord, Andrew F. Stewart, Peng Wang, Laura C. Alonso & Olov Andersson. Nature metabolism. 2021 May; 3(5):682-700. *These authors had equal contribution to the work.
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. In vivo screening for small molecules promoting cellular reprogramming to insulin-producing β-cells. Lipeng Ren*, Jérémie Charbord*, Lianhe Chu, Nicole Schmitner, Jiarui Mi, Ka-Cheuk Liu, Dominika Tworus, Olov Andersson. *These authors had equal contribution to the work. [Manuscript]
III. Adjudin improves beta cell maturation, hepatic glucose uptake and glucose homeostasis. Lipeng Ren, Jérémie Charbord, Lianhe Chu, Aurino M Kemas, Maria Bertuzzi, Jiarui Mi, Chen Xing, Volker M Lauschke, Olov Andersson. Diabetologia. 2023 Oct.
Fulltext (DOI)
Pubmed
Institution: Karolinska Institutet
Supervisor: Andersson, Olov
Co-supervisor: Teixeira, Ana; Catrina, Sergiu-Bogdan
Issue date: 2023-10-27
Rights:
Publication year: 2023
ISBN: 978-91-8017-175-5
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