PCSK9 deficiency promotes the development of peripheral neuropathy
Ali K. Jaafar, Aurélie Paulo-Ramos, Guillaume Rastoldo, Bryan Veeren, Cynthia Planesse, Matthieu Bringart, Philippe Rondeau, Kévin Chemello, Olivier Meilhac, Gilles C. Lambert, Steeve Bourane
Ali K. Jaafar, Aurélie Paulo-Ramos, Guillaume Rastoldo, Bryan Veeren, Cynthia Planesse, Matthieu Bringart, Philippe Rondeau, Kévin Chemello, Olivier Meilhac, Gilles C. Lambert, Steeve Bourane
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Research Article Metabolism Neuroscience

PCSK9 deficiency promotes the development of peripheral neuropathy

Abstract

Proprotein convertase subtilisin/kexin type 9 (PCSK9) induces the hepatic degradation of the low-density lipoprotein receptor (LDLR), thereby increasing the concentration of LDL-cholesterol in the blood. Beyond its effects on LDL, recent studies have reported pleiotropic effects of PCSK9, notably in septic shock, vascular inflammation, viral infection, and cancer. While the functional and structural integrity of peripheral nerves are critically influenced by circulating lipids, the effect of PCSK9 on the peripheral nervous system remains unknown. In this study, we investigated the consequences of PCSK9 deficiency on peripheral nerves. We found that PCSK9 deletion in mice leads to peripheral neuropathy, characterized by reduced thermal and mechanical pain sensations. PCSK9-deficient mice also presented with skin structural changes, including a reduction in nociceptive Schwann cell number, axonal swelling of Remak fibers, and hypomyelination of small nerve fibers. Interestingly, the peripheral nerves of PCSK9-deficient mice showed an upregulation of CD36, a fatty acid transporter, which correlated with increased nerve lipid content, structural mitochondrial abnormalities, and acylcarnitine accumulation. Our findings demonstrate that PCSK9 plays a critical role in peripheral nerves by regulating lipid homeostasis and that its deficiency results in symptoms related to peripheral neuropathy.

Authors

Ali K. Jaafar, Aurélie Paulo-Ramos, Guillaume Rastoldo, Bryan Veeren, Cynthia Planesse, Matthieu Bringart, Philippe Rondeau, Kévin Chemello, Olivier Meilhac, Gilles C. Lambert, Steeve Bourane

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Figure 3

PCSK9 deficiency is associated with loss of nociceptive Schwann cells and C-fiber axonal swelling.

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PCSK9 deficiency is associated with loss of nociceptive Schwann cells a...
(A) Representative image of intraepidermal nerve fiber density (IENFD) (arrowheads above the dotted line delineating epidermis [E] and dermis [D]) in the foot skin with an immunostaining against PGP9.5 (red). Scale bars: 50 μm. (B) Quantification of IENFD in WT (n = 9) and PCSK9-KO (n = 7). (C) Representative image of nociceptive Schwann cells in the foot skin with an immunostaining against L1CAM (green). Scale bars: 50 μm. (D) Quantification of numbers of nociceptive Schwann cells between WT (n = 9) and PCSK9-KO (n = 7) mice. (E) Representative photomicrographs of Remak bundle structure by transmission electron microscopy in WT (small C-fibers are highlighted in blue) and PCSK9-KO mice (small C-fibers are highlighted in pink); asterisk indicates axon-axon contacts. Scale bars: main image (2 μm); inset, (1 μm); last inset (0.5 μm). (F) Distribution of axon diameter in Remak bundles between WT (n = 8) and PCSK9-KO (n = 6) mice. (G) Percentage of small unmyelinated C-fibers with a diameter greater than 1.5 μm in WT (n = 8, ≥ 2035 axons were analyzed) versus PCSK9-KO mice (n = 6, ≥ 1727 axons were analyzed). Data are represented as mean ± SEM and analyzed by unpaired t test (B, D, and G) and multiple t test (F). *P < 0.05 and ****P < 0.0001.