The angiopoietin-like protein ANGPTL4 catalyzes unfolding of the hydrolase domain in lipoprotein lipase and the endothelial membrane protein GPIHBP1 counteracts this unfolding

Simon Mysling; Kristian Kølby Kristensen; Mikael Larsson; Oleg Kovrov; André Bensadouen; Thomas J D Jørgensen; Gunilla Olivecrona; Stephen G Young; Michael Ploug

doi:10.7554/eLife.20958

The angiopoietin-like protein ANGPTL4 catalyzes unfolding of the hydrolase domain in lipoprotein lipase and the endothelial membrane protein GPIHBP1 counteracts this unfolding

Simon Mysling, Kristian Kølby Kristensen, Mikael Larsson, Oleg Kovrov, André Bensadouen, Thomas J D Jørgensen, Gunilla Olivecrona, Stephen G Young, Michael Ploug

51 Citationer (Scopus)

Abstract

Lipoprotein lipase (LPL) undergoes spontaneous inactivation via global unfolding and this unfolding is prevented by GPIHBP1 (Mysling et al., 2016). We now show: (1) that ANGPTL4 inactivates LPL by catalyzing the unfolding of its hydrolase domain; (2) that binding to GPIHBP1 renders LPL largely refractory to this inhibition; and (3) that both the LU domain and the intrinsically disordered acidic domain of GPIHBP1 are required for this protective effect. Genetic studies have found that a common polymorphic variant in ANGPTL4 results in lower plasma triglyceride levels. We now report: (1) that this ANGPTL4 variant is less efficient in catalyzing the unfolding of LPL; and (2) that its Glu-to-Lys substitution destabilizes its N-terminal a-helix. Our work elucidates the molecular basis for regulation of LPL activity by ANGPTL4, highlights the physiological relevance of the inherent instability of LPL, and sheds light on the molecular defects in a clinically relevant variant of ANGPTL4.

Originalsprog	Engelsk
Artikelnummer	e20958
Tidsskrift	eLife
Vol/bind	5
Antal sider	18
ISSN	2050-084X
DOI	https://doi.org/10.7554/eLife.20958
Status	Udgivet - 8 dec. 2016

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10.7554/eLife.20958Licens: CC BY

Citationsformater

Mysling, S., Kristensen, K. K., Larsson, M., Kovrov, O., Bensadouen, A., Jørgensen, T. J. D., Olivecrona, G., Young, S. G., & Ploug, M. (2016). The angiopoietin-like protein ANGPTL4 catalyzes unfolding of the hydrolase domain in lipoprotein lipase and the endothelial membrane protein GPIHBP1 counteracts this unfolding. eLife, 5, [e20958]. https://doi.org/10.7554/eLife.20958

The angiopoietin-like protein ANGPTL4 catalyzes unfolding of the hydrolase domain in lipoprotein lipase and the endothelial membrane protein GPIHBP1 counteracts this unfolding. / Mysling, Simon; Kristensen, Kristian Kølby; Larsson, Mikael et al.

I: eLife, Bind 5, e20958, 08.12.2016.

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

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title = "The angiopoietin-like protein ANGPTL4 catalyzes unfolding of the hydrolase domain in lipoprotein lipase and the endothelial membrane protein GPIHBP1 counteracts this unfolding",

abstract = "Lipoprotein lipase (LPL) undergoes spontaneous inactivation via global unfolding and this unfolding is prevented by GPIHBP1 (Mysling et al., 2016). We now show: (1) that ANGPTL4 inactivates LPL by catalyzing the unfolding of its hydrolase domain; (2) that binding to GPIHBP1 renders LPL largely refractory to this inhibition; and (3) that both the LU domain and the intrinsically disordered acidic domain of GPIHBP1 are required for this protective effect. Genetic studies have found that a common polymorphic variant in ANGPTL4 results in lower plasma triglyceride levels. We now report: (1) that this ANGPTL4 variant is less efficient in catalyzing the unfolding of LPL; and (2) that its Glu-to-Lys substitution destabilizes its N-terminal a-helix. Our work elucidates the molecular basis for regulation of LPL activity by ANGPTL4, highlights the physiological relevance of the inherent instability of LPL, and sheds light on the molecular defects in a clinically relevant variant of ANGPTL4.",

author = "Simon Mysling and Kristensen, {Kristian K{\o}lby} and Mikael Larsson and Oleg Kovrov and Andr{\'e} Bensadouen and J{\o}rgensen, {Thomas J D} and Gunilla Olivecrona and Young, {Stephen G} and Michael Ploug",

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AU - Mysling, Simon

AU - Kristensen, Kristian Kølby

AU - Larsson, Mikael

AU - Kovrov, Oleg

AU - Bensadouen, André

AU - Jørgensen, Thomas J D

AU - Olivecrona, Gunilla

AU - Young, Stephen G

AU - Ploug, Michael

PY - 2016/12/8

Y1 - 2016/12/8

N2 - Lipoprotein lipase (LPL) undergoes spontaneous inactivation via global unfolding and this unfolding is prevented by GPIHBP1 (Mysling et al., 2016). We now show: (1) that ANGPTL4 inactivates LPL by catalyzing the unfolding of its hydrolase domain; (2) that binding to GPIHBP1 renders LPL largely refractory to this inhibition; and (3) that both the LU domain and the intrinsically disordered acidic domain of GPIHBP1 are required for this protective effect. Genetic studies have found that a common polymorphic variant in ANGPTL4 results in lower plasma triglyceride levels. We now report: (1) that this ANGPTL4 variant is less efficient in catalyzing the unfolding of LPL; and (2) that its Glu-to-Lys substitution destabilizes its N-terminal a-helix. Our work elucidates the molecular basis for regulation of LPL activity by ANGPTL4, highlights the physiological relevance of the inherent instability of LPL, and sheds light on the molecular defects in a clinically relevant variant of ANGPTL4.

AB - Lipoprotein lipase (LPL) undergoes spontaneous inactivation via global unfolding and this unfolding is prevented by GPIHBP1 (Mysling et al., 2016). We now show: (1) that ANGPTL4 inactivates LPL by catalyzing the unfolding of its hydrolase domain; (2) that binding to GPIHBP1 renders LPL largely refractory to this inhibition; and (3) that both the LU domain and the intrinsically disordered acidic domain of GPIHBP1 are required for this protective effect. Genetic studies have found that a common polymorphic variant in ANGPTL4 results in lower plasma triglyceride levels. We now report: (1) that this ANGPTL4 variant is less efficient in catalyzing the unfolding of LPL; and (2) that its Glu-to-Lys substitution destabilizes its N-terminal a-helix. Our work elucidates the molecular basis for regulation of LPL activity by ANGPTL4, highlights the physiological relevance of the inherent instability of LPL, and sheds light on the molecular defects in a clinically relevant variant of ANGPTL4.

U2 - 10.7554/eLife.20958

DO - 10.7554/eLife.20958

M3 - Journal article

C2 - 27929370

SN - 2050-084X

VL - 5

JO - eLife

JF - eLife

M1 - e20958

ER -

The angiopoietin-like protein ANGPTL4 catalyzes unfolding of the hydrolase domain in lipoprotein lipase and the endothelial membrane protein GPIHBP1 counteracts this unfolding

Abstract

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