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. 2023 Nov;55(11):1929-1940.
doi: 10.1038/s41588-023-01535-3. Epub 2023 Nov 2.

Loss of phospholipase PLAAT3 causes a mixed lipodystrophic and neurological syndrome due to impaired PPARγ signaling

Nika Schuermans #  1   2 Salima El Chehadeh #  3   4   5 Dimitri Hemelsoet #  6 Jérémie Gautheron #  7 Marie-Christine Vantyghem  8   9 Sonia Nouioua  10   11 Meriem Tazir  11   12 Corinne Vigouroux  7   13 Martine Auclair  7   13 Elke Bogaert  1   2 Sara Dufour  2   14   15 Fumiya Okawa  16 Pascale Hilbert  17 Nike Van Doninck  18 Marie-Caroline Taquet  19 Toon Rosseel  1 Griet De Clercq  1   2 Elke Debackere  1   2 Carole Van Haverbeke  20 Ferroudja Ramdane Cherif  10   11 Jon Andoni Urtizberea  21 Jean-Baptiste Chanson  22 Benoit Funalot  23   24 François-Jérôme Authier  24   25 Sabine Kaya  26 Wim Terryn  27 Steven Callens  28 Bernard Depypere  29 Jo Van Dorpe  20 Program for Undiagnosed Diseases (UD-PrOZA)Bruce Poppe  1   2 Francis Impens  2   14   15 Noboru Mizushima  16 Christel Depienne  4   26 Isabelle Jéru  7   30 Bart Dermaut  31   32
Collaborators, Affiliations

Loss of phospholipase PLAAT3 causes a mixed lipodystrophic and neurological syndrome due to impaired PPARγ signaling

Nika Schuermans et al. Nat Genet. 2023 Nov.

Abstract

Phospholipase A/acyltransferase 3 (PLAAT3) is a phospholipid-modifying enzyme predominantly expressed in neural and white adipose tissue (WAT). It is a potential drug target for metabolic syndrome, as Plaat3 deficiency in mice protects against diet-induced obesity. We identified seven patients from four unrelated consanguineous families, with homozygous loss-of-function variants in PLAAT3, who presented with a lipodystrophy syndrome with loss of fat varying from partial to generalized and associated with metabolic complications, as well as variable neurological features including demyelinating neuropathy and intellectual disability. Multi-omics analysis of mouse Plaat3-/- and patient-derived WAT showed enrichment of arachidonic acid-containing membrane phospholipids and a strong decrease in the signaling of peroxisome proliferator-activated receptor gamma (PPARγ), the master regulator of adipocyte differentiation. Accordingly, CRISPR-Cas9-mediated PLAAT3 inactivation in human adipose stem cells induced insulin resistance, altered adipocyte differentiation with decreased lipid droplet formation and reduced the expression of adipogenic and mature adipocyte markers, including PPARγ. These findings establish PLAAT3 deficiency as a hereditary lipodystrophy syndrome with neurological manifestations, caused by a PPARγ-dependent defect in WAT differentiation and function.

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