Phosphoproteomics-directed manipulation reveals SEC22B as a hepatocellular signaling node governing metabolic actions of glucagon

Yuqin Wu; Ashish Foollee; Andrea Y. Chan; Susanne Hille; Jana Hauke; Matthew P. Challis; Jared L. Johnson; Tomer M. Yaron; Victoria Mynard; Okka H. Aung; Maria Almira S. Cleofe; Cheng Huang; Terry C.C. Lim Kam Sian; Mohammad Rahbari; Suchira Gallage; Mathias Heikenwalder; Lewis C. Cantley; Ralf B. Schittenhelm; Luke E. Formosa; Greg C. Smith; Jürgen G. Okun; Oliver J. Müller; Patricia M. Rusu; Adam J. Rose

doi:10.1038/s41467-024-52703-w

Phosphoproteomics-directed manipulation reveals SEC22B as a hepatocellular signaling node governing metabolic actions of glucagon

Yuqin Wu, Ashish Foollee, Andrea Y. Chan, Susanne Hille, Jana Hauke, Matthew P. Challis, Jared L. Johnson, Tomer M. Yaron, Victoria Mynard, Okka H. Aung, Maria Almira S. Cleofe, Cheng Huang, Terry C.C. Lim Kam Sian, Mohammad Rahbari, Suchira Gallage, Mathias Heikenwalder, Lewis C. Cantley, Ralf B. Schittenhelm, Luke E. Formosa, Greg C. SmithJürgen G. Okun, Oliver J. Müller, Patricia M. Rusu, Adam J. Rose

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Abstract

The peptide hormone glucagon is a fundamental metabolic regulator that is also being considered as a pharmacotherapeutic option for obesity and type 2 diabetes. Despite this, we know very little regarding how glucagon exerts its pleiotropic metabolic actions. Given that the liver is a chief site of action, we performed in situ time-resolved liver phosphoproteomics to reveal glucagon signaling nodes. Through pathway analysis of the thousands of phosphopeptides identified, we reveal “membrane trafficking” as a dominant signature with the vesicle trafficking protein SEC22 Homolog B (SEC22B) S137 phosphorylation being a top hit. Hepatocyte-specific loss- and gain-of-function experiments reveal that SEC22B was a key regulator of glycogen, lipid and amino acid metabolism, with SEC22B-S137 phosphorylation playing a major role in glucagon action. Mechanistically, we identify several protein binding partners of SEC22B affected by glucagon, some of which were differentially enriched with SEC22B-S137 phosphorylation. In summary, we demonstrate that phosphorylation of SEC22B is a hepatocellular signaling node mediating the metabolic actions of glucagon and provide a rich resource for future investigations on the biology of glucagon action.

Original language	English
Article number	8390
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-52703-w
State	Published - 27 Sep 2024
Externally published	Yes

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Publisher Copyright:
© The Author(s) 2024.

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Wu, Y., Foollee, A., Chan, A. Y., Hille, S., Hauke, J., Challis, M. P., Johnson, J. L., Yaron, T. M., Mynard, V., Aung, O. H., Cleofe, M. A. S., Huang, C., Lim Kam Sian, T. C. C., Rahbari, M., Gallage, S., Heikenwalder, M., Cantley, L. C., Schittenhelm, R. B., Formosa, L. E., ... Rose, A. J. (2024). Phosphoproteomics-directed manipulation reveals SEC22B as a hepatocellular signaling node governing metabolic actions of glucagon. Nature Communications, 15(1), Article 8390. https://doi.org/10.1038/s41467-024-52703-w

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title = "Phosphoproteomics-directed manipulation reveals SEC22B as a hepatocellular signaling node governing metabolic actions of glucagon",

abstract = "The peptide hormone glucagon is a fundamental metabolic regulator that is also being considered as a pharmacotherapeutic option for obesity and type 2 diabetes. Despite this, we know very little regarding how glucagon exerts its pleiotropic metabolic actions. Given that the liver is a chief site of action, we performed in situ time-resolved liver phosphoproteomics to reveal glucagon signaling nodes. Through pathway analysis of the thousands of phosphopeptides identified, we reveal “membrane trafficking” as a dominant signature with the vesicle trafficking protein SEC22 Homolog B (SEC22B) S137 phosphorylation being a top hit. Hepatocyte-specific loss- and gain-of-function experiments reveal that SEC22B was a key regulator of glycogen, lipid and amino acid metabolism, with SEC22B-S137 phosphorylation playing a major role in glucagon action. Mechanistically, we identify several protein binding partners of SEC22B affected by glucagon, some of which were differentially enriched with SEC22B-S137 phosphorylation. In summary, we demonstrate that phosphorylation of SEC22B is a hepatocellular signaling node mediating the metabolic actions of glucagon and provide a rich resource for future investigations on the biology of glucagon action.",

author = "Yuqin Wu and Ashish Foollee and Chan, {Andrea Y.} and Susanne Hille and Jana Hauke and Challis, {Matthew P.} and Johnson, {Jared L.} and Yaron, {Tomer M.} and Victoria Mynard and Aung, {Okka H.} and Cleofe, {Maria Almira S.} and Cheng Huang and {Lim Kam Sian}, {Terry C.C.} and Mohammad Rahbari and Suchira Gallage and Mathias Heikenwalder and Cantley, {Lewis C.} and Schittenhelm, {Ralf B.} and Formosa, {Luke E.} and Smith, {Greg C.} and Okun, {J{\"u}rgen G.} and M{\"u}ller, {Oliver J.} and Rusu, {Patricia M.} and Rose, {Adam J.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = sep,

day = "27",

doi = "10.1038/s41467-024-52703-w",

language = "אנגלית",

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Wu, Y, Foollee, A, Chan, AY, Hille, S, Hauke, J, Challis, MP, Johnson, JL, Yaron, TM, Mynard, V, Aung, OH, Cleofe, MAS, Huang, C, Lim Kam Sian, TCC, Rahbari, M, Gallage, S, Heikenwalder, M, Cantley, LC, Schittenhelm, RB, Formosa, LE, Smith, GC, Okun, JG, Müller, OJ, Rusu, PM & Rose, AJ 2024, 'Phosphoproteomics-directed manipulation reveals SEC22B as a hepatocellular signaling node governing metabolic actions of glucagon', Nature Communications, vol. 15, no. 1, 8390. https://doi.org/10.1038/s41467-024-52703-w

TY - JOUR

T1 - Phosphoproteomics-directed manipulation reveals SEC22B as a hepatocellular signaling node governing metabolic actions of glucagon

AU - Wu, Yuqin

AU - Foollee, Ashish

AU - Chan, Andrea Y.

AU - Hille, Susanne

AU - Hauke, Jana

AU - Challis, Matthew P.

AU - Johnson, Jared L.

AU - Yaron, Tomer M.

AU - Mynard, Victoria

AU - Aung, Okka H.

AU - Cleofe, Maria Almira S.

AU - Huang, Cheng

AU - Lim Kam Sian, Terry C.C.

AU - Rahbari, Mohammad

AU - Gallage, Suchira

AU - Heikenwalder, Mathias

AU - Cantley, Lewis C.

AU - Schittenhelm, Ralf B.

AU - Formosa, Luke E.

AU - Smith, Greg C.

AU - Okun, Jürgen G.

AU - Müller, Oliver J.

AU - Rusu, Patricia M.

AU - Rose, Adam J.

PY - 2024/9/27

Y1 - 2024/9/27

N2 - The peptide hormone glucagon is a fundamental metabolic regulator that is also being considered as a pharmacotherapeutic option for obesity and type 2 diabetes. Despite this, we know very little regarding how glucagon exerts its pleiotropic metabolic actions. Given that the liver is a chief site of action, we performed in situ time-resolved liver phosphoproteomics to reveal glucagon signaling nodes. Through pathway analysis of the thousands of phosphopeptides identified, we reveal “membrane trafficking” as a dominant signature with the vesicle trafficking protein SEC22 Homolog B (SEC22B) S137 phosphorylation being a top hit. Hepatocyte-specific loss- and gain-of-function experiments reveal that SEC22B was a key regulator of glycogen, lipid and amino acid metabolism, with SEC22B-S137 phosphorylation playing a major role in glucagon action. Mechanistically, we identify several protein binding partners of SEC22B affected by glucagon, some of which were differentially enriched with SEC22B-S137 phosphorylation. In summary, we demonstrate that phosphorylation of SEC22B is a hepatocellular signaling node mediating the metabolic actions of glucagon and provide a rich resource for future investigations on the biology of glucagon action.

AB - The peptide hormone glucagon is a fundamental metabolic regulator that is also being considered as a pharmacotherapeutic option for obesity and type 2 diabetes. Despite this, we know very little regarding how glucagon exerts its pleiotropic metabolic actions. Given that the liver is a chief site of action, we performed in situ time-resolved liver phosphoproteomics to reveal glucagon signaling nodes. Through pathway analysis of the thousands of phosphopeptides identified, we reveal “membrane trafficking” as a dominant signature with the vesicle trafficking protein SEC22 Homolog B (SEC22B) S137 phosphorylation being a top hit. Hepatocyte-specific loss- and gain-of-function experiments reveal that SEC22B was a key regulator of glycogen, lipid and amino acid metabolism, with SEC22B-S137 phosphorylation playing a major role in glucagon action. Mechanistically, we identify several protein binding partners of SEC22B affected by glucagon, some of which were differentially enriched with SEC22B-S137 phosphorylation. In summary, we demonstrate that phosphorylation of SEC22B is a hepatocellular signaling node mediating the metabolic actions of glucagon and provide a rich resource for future investigations on the biology of glucagon action.

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U2 - 10.1038/s41467-024-52703-w

DO - 10.1038/s41467-024-52703-w

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AN - SCOPUS:85205275945

SN - 2041-1723

VL - 15

JO - Nature Communications

JF - Nature Communications

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M1 - 8390

ER -

Phosphoproteomics-directed manipulation reveals SEC22B as a hepatocellular signaling node governing metabolic actions of glucagon

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