PT-1 selectively activates AMPK-γ1 complexes in mouse skeletal muscle, but activates all three γ subunit complexes in cultured human cells by inhibiting the respiratory chain

Thomas Elbenhardt Jensen; Fiona A Ross; Maximilian Kleinert; Lykke Sylow; Jonas Roland Knudsen; Graeme J Gowans; D Grahame Hardie; Erik Richter

doi:10.1042/BJ20141142

PT-1 selectively activates AMPK-γ1 complexes in mouse skeletal muscle, but activates all three γ subunit complexes in cultured human cells by inhibiting the respiratory chain

Thomas Elbenhardt Jensen, Fiona A Ross, Maximilian Kleinert, Lykke Sylow, Jonas Roland Knudsen, Graeme J Gowans, D Grahame Hardie, Erik Richter

August Krogh Sektionen for Molekylær Fysiologi

33 Citationer (Scopus)

Abstract

AMP-activated protein kinase (AMPK) occurs as heterotrimeric complexes in which a catalytic subunit (α 1/α 2) is bound to one of two β subunits (β 1/β 2) and one of three γ subunits (γ 1/γ 2/γ 3). The ability to selectively activate specific isoforms would be a useful research tool and a promising strategy to combat diseases such as cancer and Type 2 diabetes. We report that the AMPK activator PT-1 selectively increased the activity of γ 1- but not γ 3-containing complexes in incubated mouse muscle. PT-1 increased the AMPK-dependent phosphorylation of the autophagy-regulating kinase ULK1 (unc-51-like autophagyactivating kinase 1) on Ser⁵⁵⁵ , but not proposed AMPK-γ 3 substrates such as Ser²³¹ on TBC1 (tre-2/USP6, BUB2, cdc16) domain family, member 1 (TBC1D1) or Ser²¹² on acetyl-CoA carboxylase subunit 2 (ACC2), nor did it stimulate glucose transport. Surprisingly, however, in human embryonic kidney (HEK) 293 cells expressing human γ 1, γ 2 or γ 3, PT-1 activated all three complexes equally.Wewere unable to reproduce previous findings suggesting that PT-1 activates AMPK by direct binding between the kinase and auto-inhibitory domains (AIDs) of the α subunit.We show instead that PT-1 activates AMPK indirectly by inhibiting the respiratory chain and increasing cellular AMP:ATP and/or ADP:ATP ratios. Consistent with this mechanism, PT-1 failed to activate AMPK in HEK293 cells expressing an AMP-insensitive R299G mutant of AMPK-γ 1. We propose that the failure of PT-1 to activate γ 3-containing complexes in muscle is not an intrinsic feature of such complexes, but is because PT-1 does not increase cellular AMP:ATP ratios in the specific subcellular compartment(s) in which γ 3 complexes are located.

Originalsprog	Engelsk
Tidsskrift	Biochemical Journal
Vol/bind	467
Udgave nummer	3
Sider (fra-til)	461-472
Antal sider	12
ISSN	0264-6021
DOI	https://doi.org/10.1042/BJ20141142
Status	Udgivet - 1 maj 2015

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Jensen, T. E., Ross, F. A., Kleinert, M., Sylow, L., Knudsen, J. R., Gowans, G. J., Hardie, D. G., & Richter, E. (2015). PT-1 selectively activates AMPK-γ1 complexes in mouse skeletal muscle, but activates all three γ subunit complexes in cultured human cells by inhibiting the respiratory chain. Biochemical Journal, 467(3), 461-472. https://doi.org/10.1042/BJ20141142

PT-1 selectively activates AMPK-γ1 complexes in mouse skeletal muscle, but activates all three γ subunit complexes in cultured human cells by inhibiting the respiratory chain. / Jensen, Thomas Elbenhardt; Ross, Fiona A; Kleinert, Maximilian et al.

I: Biochemical Journal, Bind 467, Nr. 3, 01.05.2015, s. 461-472.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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title = "PT-1 selectively activates AMPK-γ1 complexes in mouse skeletal muscle, but activates all three γ subunit complexes in cultured human cells by inhibiting the respiratory chain",

abstract = "AMP-activated protein kinase (AMPK) occurs as heterotrimeric complexes in which a catalytic subunit (α 1/α 2) is bound to one of two β subunits (β 1/β 2) and one of three γ subunits (γ 1/γ 2/γ 3). The ability to selectively activate specific isoforms would be a useful research tool and a promising strategy to combat diseases such as cancer and Type 2 diabetes. We report that the AMPK activator PT-1 selectively increased the activity of γ 1- but not γ 3-containing complexes in incubated mouse muscle. PT-1 increased the AMPK-dependent phosphorylation of the autophagy-regulating kinase ULK1 (unc-51-like autophagyactivating kinase 1) on Ser555 , but not proposed AMPK-γ 3 substrates such as Ser231 on TBC1 (tre-2/USP6, BUB2, cdc16) domain family, member 1 (TBC1D1) or Ser212 on acetyl-CoA carboxylase subunit 2 (ACC2), nor did it stimulate glucose transport. Surprisingly, however, in human embryonic kidney (HEK) 293 cells expressing human γ 1, γ 2 or γ 3, PT-1 activated all three complexes equally.Wewere unable to reproduce previous findings suggesting that PT-1 activates AMPK by direct binding between the kinase and auto-inhibitory domains (AIDs) of the α subunit.We show instead that PT-1 activates AMPK indirectly by inhibiting the respiratory chain and increasing cellular AMP:ATP and/or ADP:ATP ratios. Consistent with this mechanism, PT-1 failed to activate AMPK in HEK293 cells expressing an AMP-insensitive R299G mutant of AMPK-γ 1. We propose that the failure of PT-1 to activate γ 3-containing complexes in muscle is not an intrinsic feature of such complexes, but is because PT-1 does not increase cellular AMP:ATP ratios in the specific subcellular compartment(s) in which γ 3 complexes are located.",

author = "Jensen, {Thomas Elbenhardt} and Ross, {Fiona A} and Maximilian Kleinert and Lykke Sylow and Knudsen, {Jonas Roland} and Gowans, {Graeme J} and Hardie, {D Grahame} and Erik Richter",

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T1 - PT-1 selectively activates AMPK-γ1 complexes in mouse skeletal muscle, but activates all three γ subunit complexes in cultured human cells by inhibiting the respiratory chain

AU - Jensen, Thomas Elbenhardt

AU - Ross, Fiona A

AU - Kleinert, Maximilian

AU - Sylow, Lykke

AU - Knudsen, Jonas Roland

AU - Gowans, Graeme J

AU - Hardie, D Grahame

AU - Richter, Erik

N1 - CURIS 2015 NEXS 138

PY - 2015/5/1

Y1 - 2015/5/1

N2 - AMP-activated protein kinase (AMPK) occurs as heterotrimeric complexes in which a catalytic subunit (α 1/α 2) is bound to one of two β subunits (β 1/β 2) and one of three γ subunits (γ 1/γ 2/γ 3). The ability to selectively activate specific isoforms would be a useful research tool and a promising strategy to combat diseases such as cancer and Type 2 diabetes. We report that the AMPK activator PT-1 selectively increased the activity of γ 1- but not γ 3-containing complexes in incubated mouse muscle. PT-1 increased the AMPK-dependent phosphorylation of the autophagy-regulating kinase ULK1 (unc-51-like autophagyactivating kinase 1) on Ser555 , but not proposed AMPK-γ 3 substrates such as Ser231 on TBC1 (tre-2/USP6, BUB2, cdc16) domain family, member 1 (TBC1D1) or Ser212 on acetyl-CoA carboxylase subunit 2 (ACC2), nor did it stimulate glucose transport. Surprisingly, however, in human embryonic kidney (HEK) 293 cells expressing human γ 1, γ 2 or γ 3, PT-1 activated all three complexes equally.Wewere unable to reproduce previous findings suggesting that PT-1 activates AMPK by direct binding between the kinase and auto-inhibitory domains (AIDs) of the α subunit.We show instead that PT-1 activates AMPK indirectly by inhibiting the respiratory chain and increasing cellular AMP:ATP and/or ADP:ATP ratios. Consistent with this mechanism, PT-1 failed to activate AMPK in HEK293 cells expressing an AMP-insensitive R299G mutant of AMPK-γ 1. We propose that the failure of PT-1 to activate γ 3-containing complexes in muscle is not an intrinsic feature of such complexes, but is because PT-1 does not increase cellular AMP:ATP ratios in the specific subcellular compartment(s) in which γ 3 complexes are located.

AB - AMP-activated protein kinase (AMPK) occurs as heterotrimeric complexes in which a catalytic subunit (α 1/α 2) is bound to one of two β subunits (β 1/β 2) and one of three γ subunits (γ 1/γ 2/γ 3). The ability to selectively activate specific isoforms would be a useful research tool and a promising strategy to combat diseases such as cancer and Type 2 diabetes. We report that the AMPK activator PT-1 selectively increased the activity of γ 1- but not γ 3-containing complexes in incubated mouse muscle. PT-1 increased the AMPK-dependent phosphorylation of the autophagy-regulating kinase ULK1 (unc-51-like autophagyactivating kinase 1) on Ser555 , but not proposed AMPK-γ 3 substrates such as Ser231 on TBC1 (tre-2/USP6, BUB2, cdc16) domain family, member 1 (TBC1D1) or Ser212 on acetyl-CoA carboxylase subunit 2 (ACC2), nor did it stimulate glucose transport. Surprisingly, however, in human embryonic kidney (HEK) 293 cells expressing human γ 1, γ 2 or γ 3, PT-1 activated all three complexes equally.Wewere unable to reproduce previous findings suggesting that PT-1 activates AMPK by direct binding between the kinase and auto-inhibitory domains (AIDs) of the α subunit.We show instead that PT-1 activates AMPK indirectly by inhibiting the respiratory chain and increasing cellular AMP:ATP and/or ADP:ATP ratios. Consistent with this mechanism, PT-1 failed to activate AMPK in HEK293 cells expressing an AMP-insensitive R299G mutant of AMPK-γ 1. We propose that the failure of PT-1 to activate γ 3-containing complexes in muscle is not an intrinsic feature of such complexes, but is because PT-1 does not increase cellular AMP:ATP ratios in the specific subcellular compartment(s) in which γ 3 complexes are located.

U2 - 10.1042/BJ20141142

DO - 10.1042/BJ20141142

M3 - Journal article

C2 - 25695398

SN - 0264-6021

VL - 467

SP - 461

EP - 472

JO - Biochemical Journal

JF - Biochemical Journal

IS - 3

ER -

PT-1 selectively activates AMPK-γ1 complexes in mouse skeletal muscle, but activates all three γ subunit complexes in cultured human cells by inhibiting the respiratory chain

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