Endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle

Anastasia Sacharidou; Ken Chambliss; Jun Peng; Jose Barrera; Keiji Tanigaki; Katherine Luby-Phelps; İpek Özdemir; Sohaib Khan; Shashank R. Sirsi; Sung Hoon Kim; Benita S. Katzenellenbogen; John A. Katzenellenbogen; Mohammed Kanchwala; Adwait A. Sathe; Andrew Lemoff; Chao Xing; Kenneth Hoyt; Chieko Mineo; Philip W. Shaul

doi:10.1038/s41467-023-40562-w

Endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle

Anastasia Sacharidou, Ken Chambliss, Jun Peng, Jose Barrera, Keiji Tanigaki, Katherine Luby-Phelps, İpek Özdemir, Sohaib Khan, Shashank R. Sirsi, Sung Hoon Kim, Benita S. Katzenellenbogen, John A. Katzenellenbogen, Mohammed Kanchwala, Adwait A. Sathe, Andrew Lemoff, Chao Xing, Kenneth Hoyt, Chieko Mineo, Philip W. Shaul

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3 Scopus citations

Abstract

The estrogen receptor (ER) designated ERα has actions in many cell and tissue types that impact glucose homeostasis. It is unknown if these include mechanisms in endothelial cells, which have the potential to influence relative obesity, and processes in adipose tissue and skeletal muscle that impact glucose control. Here we show that independent of impact on events in adipose tissue, endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle. Endothelial ERα-deficient male mice are glucose intolerant and insulin resistant, and in females the antidiabetogenic actions of estradiol (E2) are absent. The glucose dysregulation is due to impaired skeletal muscle glucose disposal that results from attenuated muscle insulin delivery. Endothelial ERα activation stimulates insulin transcytosis by skeletal muscle microvascular endothelial cells. Mechanistically this involves nuclear ERα-dependent upregulation of vesicular trafficking regulator sorting nexin 5 (SNX5) expression, and PI3 kinase activation that drives plasma membrane recruitment of SNX5. Thus, coupled nuclear and non-nuclear actions of ERα promote endothelial insulin transport to skeletal muscle to foster normal glucose homeostasis.

Original language	English (US)
Article number	4989
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-40562-w
State	Published - Dec 2023

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Sacharidou, A., Chambliss, K., Peng, J., Barrera, J., Tanigaki, K., Luby-Phelps, K., Özdemir, İ., Khan, S., Sirsi, S. R., Kim, S. H., Katzenellenbogen, B. S., Katzenellenbogen, J. A., Kanchwala, M., Sathe, A. A., Lemoff, A., Xing, C., Hoyt, K., Mineo, C., & Shaul, P. W. (2023). Endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle. Nature communications, 14(1), Article 4989. https://doi.org/10.1038/s41467-023-40562-w

Sacharidou, A, Chambliss, K, Peng, J, Barrera, J, Tanigaki, K, Luby-Phelps, K, Özdemir, İ, Khan, S, Sirsi, SR, Kim, SH, Katzenellenbogen, BS, Katzenellenbogen, JA, Kanchwala, M, Sathe, AA, Lemoff, A, Xing, C, Hoyt, K, Mineo, C & Shaul, PW 2023, 'Endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle', Nature communications, vol. 14, no. 1, 4989. https://doi.org/10.1038/s41467-023-40562-w

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title = "Endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle",

abstract = "The estrogen receptor (ER) designated ERα has actions in many cell and tissue types that impact glucose homeostasis. It is unknown if these include mechanisms in endothelial cells, which have the potential to influence relative obesity, and processes in adipose tissue and skeletal muscle that impact glucose control. Here we show that independent of impact on events in adipose tissue, endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle. Endothelial ERα-deficient male mice are glucose intolerant and insulin resistant, and in females the antidiabetogenic actions of estradiol (E2) are absent. The glucose dysregulation is due to impaired skeletal muscle glucose disposal that results from attenuated muscle insulin delivery. Endothelial ERα activation stimulates insulin transcytosis by skeletal muscle microvascular endothelial cells. Mechanistically this involves nuclear ERα-dependent upregulation of vesicular trafficking regulator sorting nexin 5 (SNX5) expression, and PI3 kinase activation that drives plasma membrane recruitment of SNX5. Thus, coupled nuclear and non-nuclear actions of ERα promote endothelial insulin transport to skeletal muscle to foster normal glucose homeostasis.",

author = "Anastasia Sacharidou and Ken Chambliss and Jun Peng and Jose Barrera and Keiji Tanigaki and Katherine Luby-Phelps and İpek {\"O}zdemir and Sohaib Khan and Sirsi, {Shashank R.} and Kim, {Sung Hoon} and Katzenellenbogen, {Benita S.} and Katzenellenbogen, {John A.} and Mohammed Kanchwala and Sathe, {Adwait A.} and Andrew Lemoff and Chao Xing and Kenneth Hoyt and Chieko Mineo and Shaul, {Philip W.}",

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doi = "10.1038/s41467-023-40562-w",

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T1 - Endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle

AU - Sacharidou, Anastasia

AU - Chambliss, Ken

AU - Peng, Jun

AU - Barrera, Jose

AU - Tanigaki, Keiji

AU - Luby-Phelps, Katherine

AU - Özdemir, İpek

AU - Khan, Sohaib

AU - Sirsi, Shashank R.

AU - Kim, Sung Hoon

AU - Katzenellenbogen, Benita S.

AU - Katzenellenbogen, John A.

AU - Kanchwala, Mohammed

AU - Sathe, Adwait A.

AU - Lemoff, Andrew

AU - Xing, Chao

AU - Hoyt, Kenneth

AU - Mineo, Chieko

AU - Shaul, Philip W.

PY - 2023/12

Y1 - 2023/12

N2 - The estrogen receptor (ER) designated ERα has actions in many cell and tissue types that impact glucose homeostasis. It is unknown if these include mechanisms in endothelial cells, which have the potential to influence relative obesity, and processes in adipose tissue and skeletal muscle that impact glucose control. Here we show that independent of impact on events in adipose tissue, endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle. Endothelial ERα-deficient male mice are glucose intolerant and insulin resistant, and in females the antidiabetogenic actions of estradiol (E2) are absent. The glucose dysregulation is due to impaired skeletal muscle glucose disposal that results from attenuated muscle insulin delivery. Endothelial ERα activation stimulates insulin transcytosis by skeletal muscle microvascular endothelial cells. Mechanistically this involves nuclear ERα-dependent upregulation of vesicular trafficking regulator sorting nexin 5 (SNX5) expression, and PI3 kinase activation that drives plasma membrane recruitment of SNX5. Thus, coupled nuclear and non-nuclear actions of ERα promote endothelial insulin transport to skeletal muscle to foster normal glucose homeostasis.

AB - The estrogen receptor (ER) designated ERα has actions in many cell and tissue types that impact glucose homeostasis. It is unknown if these include mechanisms in endothelial cells, which have the potential to influence relative obesity, and processes in adipose tissue and skeletal muscle that impact glucose control. Here we show that independent of impact on events in adipose tissue, endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle. Endothelial ERα-deficient male mice are glucose intolerant and insulin resistant, and in females the antidiabetogenic actions of estradiol (E2) are absent. The glucose dysregulation is due to impaired skeletal muscle glucose disposal that results from attenuated muscle insulin delivery. Endothelial ERα activation stimulates insulin transcytosis by skeletal muscle microvascular endothelial cells. Mechanistically this involves nuclear ERα-dependent upregulation of vesicular trafficking regulator sorting nexin 5 (SNX5) expression, and PI3 kinase activation that drives plasma membrane recruitment of SNX5. Thus, coupled nuclear and non-nuclear actions of ERα promote endothelial insulin transport to skeletal muscle to foster normal glucose homeostasis.

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Endothelial ERα promotes glucose tolerance by enhancing endothelial insulin transport to skeletal muscle

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