Cab45G trafficking through the insulin secretory pathway is altered in human type 2 diabetes

Mark Germanos; Belinda Yau; Matthew Taper; Cara Yeoman; Amy Wilson; Yousun An; Jerome Cattin-Ortolá; Drew Masler; Jason Tong; Sheyda Naghiloo; Elise J. Needham; A. Gabrielle van der Kraan; Kitty Sun; Thomas Loudovaris; Alexis Diaz-Vegas; Mark Larance; Helen Thomas; Helen von Blume; Peter Thorn; Michael Ailion; Cedric Asensio; Melkam Alamerew Kebede

doi:10.1016/j.isci.2024.111719

Cab45G trafficking through the insulin secretory pathway is altered in human type 2 diabetes

Mark Germanos, Belinda Yau, Matthew Taper, Cara Yeoman, Amy Wilson, Yousun An, Jerome Cattin-Ortolá, Drew Masler, Jason Tong, Sheyda Naghiloo, Elise J. Needham, A. Gabrielle van der Kraan, Kitty Sun, Thomas Loudovaris, Alexis Diaz-Vegas, Mark Larance, Helen Thomas, Helen von Blume, Peter Thorn, Michael AilionCedric Asensio, Melkam Alamerew Kebede

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

In type 2 diabetes (T2D), the rate of insulin secretory granule biogenesis can limit insulin secretion from pancreatic β-cells. Using rat insulinoma INS1 β-cells, we show that the soluble Ca²⁺-binding/trafficking protein, Cab45G, serves as a non-essential chaperone for insulin granule biogenesis. In β-cells, Cab45G is stored within a cis-Golgi reservoir. Cab45G deletion dysregulates Ca²⁺ homeostasis and leads to secretory abnormality, but insulin granule biogenesis remains intact. Increasing Cab45G biosynthesis leads to anterograde trafficking into insulin granules, stimulating their production. Using human donor islets, we identify increased anterograde Cab45G trafficking in obese humans with and without T2D, consistent with the heightened demand for granule biogenesis. However, humans with T2D demonstrate decreased Golgi Cab45G localization and increased granule Cab45G localization compared to those without T2D. Our study provides the first insight into Cab45G function in specialized secretory cells and opens avenues of investigation into mechanisms associated with β-cell compensation and failure.

Original language	English (US)
Article number	111719
Journal	iScience
Volume	28
Issue number	2
DOIs	https://doi.org/10.1016/j.isci.2024.111719
State	Published - Feb 21 2025
Externally published	Yes

Keywords

Biological sciences
Cell biology
Functional aspects of cell biology
Organizational aspects of cell biology
Specialized functions of cells

ASJC Scopus subject areas

General

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10.1016/j.isci.2024.111719

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Germanos, M., Yau, B., Taper, M., Yeoman, C., Wilson, A., An, Y., Cattin-Ortolá, J., Masler, D., Tong, J., Naghiloo, S., Needham, E. J., van der Kraan, A. G., Sun, K., Loudovaris, T., Diaz-Vegas, A., Larance, M., Thomas, H., von Blume, H., Thorn, P., ... Kebede, M. A. (2025). Cab45G trafficking through the insulin secretory pathway is altered in human type 2 diabetes. iScience, 28(2), Article 111719. https://doi.org/10.1016/j.isci.2024.111719

Germanos, M, Yau, B, Taper, M, Yeoman, C, Wilson, A, An, Y, Cattin-Ortolá, J, Masler, D, Tong, J, Naghiloo, S, Needham, EJ, van der Kraan, AG, Sun, K, Loudovaris, T, Diaz-Vegas, A, Larance, M, Thomas, H, von Blume, H, Thorn, P, Ailion, M, Asensio, C & Kebede, MA 2025, 'Cab45G trafficking through the insulin secretory pathway is altered in human type 2 diabetes', iScience, vol. 28, no. 2, 111719. https://doi.org/10.1016/j.isci.2024.111719

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title = "Cab45G trafficking through the insulin secretory pathway is altered in human type 2 diabetes",

abstract = "In type 2 diabetes (T2D), the rate of insulin secretory granule biogenesis can limit insulin secretion from pancreatic β-cells. Using rat insulinoma INS1 β-cells, we show that the soluble Ca2+-binding/trafficking protein, Cab45G, serves as a non-essential chaperone for insulin granule biogenesis. In β-cells, Cab45G is stored within a cis-Golgi reservoir. Cab45G deletion dysregulates Ca2+ homeostasis and leads to secretory abnormality, but insulin granule biogenesis remains intact. Increasing Cab45G biosynthesis leads to anterograde trafficking into insulin granules, stimulating their production. Using human donor islets, we identify increased anterograde Cab45G trafficking in obese humans with and without T2D, consistent with the heightened demand for granule biogenesis. However, humans with T2D demonstrate decreased Golgi Cab45G localization and increased granule Cab45G localization compared to those without T2D. Our study provides the first insight into Cab45G function in specialized secretory cells and opens avenues of investigation into mechanisms associated with β-cell compensation and failure.",

keywords = "Biological sciences, Cell biology, Functional aspects of cell biology, Organizational aspects of cell biology, Specialized functions of cells",

author = "Mark Germanos and Belinda Yau and Matthew Taper and Cara Yeoman and Amy Wilson and Yousun An and Jerome Cattin-Ortol{\'a} and Drew Masler and Jason Tong and Sheyda Naghiloo and Needham, \{Elise J.\} and \{van der Kraan\}, \{A. Gabrielle\} and Kitty Sun and Thomas Loudovaris and Alexis Diaz-Vegas and Mark Larance and Helen Thomas and \{von Blume\}, Helen and Peter Thorn and Michael Ailion and Cedric Asensio and Kebede, \{Melkam Alamerew\}",

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month = feb,

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doi = "10.1016/j.isci.2024.111719",

language = "English (US)",

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AU - Germanos, Mark

AU - Yau, Belinda

AU - Taper, Matthew

AU - Yeoman, Cara

AU - Wilson, Amy

AU - An, Yousun

AU - Cattin-Ortolá, Jerome

AU - Masler, Drew

AU - Tong, Jason

AU - Naghiloo, Sheyda

AU - Needham, Elise J.

AU - van der Kraan, A. Gabrielle

AU - Sun, Kitty

AU - Loudovaris, Thomas

AU - Diaz-Vegas, Alexis

AU - Larance, Mark

AU - Thomas, Helen

AU - von Blume, Helen

AU - Thorn, Peter

AU - Ailion, Michael

AU - Asensio, Cedric

AU - Kebede, Melkam Alamerew

PY - 2025/2/21

Y1 - 2025/2/21

N2 - In type 2 diabetes (T2D), the rate of insulin secretory granule biogenesis can limit insulin secretion from pancreatic β-cells. Using rat insulinoma INS1 β-cells, we show that the soluble Ca2+-binding/trafficking protein, Cab45G, serves as a non-essential chaperone for insulin granule biogenesis. In β-cells, Cab45G is stored within a cis-Golgi reservoir. Cab45G deletion dysregulates Ca2+ homeostasis and leads to secretory abnormality, but insulin granule biogenesis remains intact. Increasing Cab45G biosynthesis leads to anterograde trafficking into insulin granules, stimulating their production. Using human donor islets, we identify increased anterograde Cab45G trafficking in obese humans with and without T2D, consistent with the heightened demand for granule biogenesis. However, humans with T2D demonstrate decreased Golgi Cab45G localization and increased granule Cab45G localization compared to those without T2D. Our study provides the first insight into Cab45G function in specialized secretory cells and opens avenues of investigation into mechanisms associated with β-cell compensation and failure.

AB - In type 2 diabetes (T2D), the rate of insulin secretory granule biogenesis can limit insulin secretion from pancreatic β-cells. Using rat insulinoma INS1 β-cells, we show that the soluble Ca2+-binding/trafficking protein, Cab45G, serves as a non-essential chaperone for insulin granule biogenesis. In β-cells, Cab45G is stored within a cis-Golgi reservoir. Cab45G deletion dysregulates Ca2+ homeostasis and leads to secretory abnormality, but insulin granule biogenesis remains intact. Increasing Cab45G biosynthesis leads to anterograde trafficking into insulin granules, stimulating their production. Using human donor islets, we identify increased anterograde Cab45G trafficking in obese humans with and without T2D, consistent with the heightened demand for granule biogenesis. However, humans with T2D demonstrate decreased Golgi Cab45G localization and increased granule Cab45G localization compared to those without T2D. Our study provides the first insight into Cab45G function in specialized secretory cells and opens avenues of investigation into mechanisms associated with β-cell compensation and failure.

KW - Biological sciences

KW - Cell biology

KW - Functional aspects of cell biology

KW - Organizational aspects of cell biology

KW - Specialized functions of cells

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JO - iScience

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M1 - 111719

ER -

Cab45G trafficking through the insulin secretory pathway is altered in human type 2 diabetes

Abstract

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