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Metformin‐induced mitochondrial function and ABCD 2 up‐regulation in X‐linked adrenoleukodystrophy involves AMP ‐activated protein kinase
Author(s) -
Singh Jaspreet,
Olle Brittany,
Suhail Hamid,
Felicella Michelle M.,
Giri Shailendra
Publication year - 2016
Publication title -
journal of neurochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.75
H-Index - 229
eISSN - 1471-4159
pISSN - 0022-3042
DOI - 10.1111/jnc.13562
Subject(s) - ampk , metformin , adrenoleukodystrophy , amp activated protein kinase , endocrinology , medicine , protein kinase a , mitochondrion , mitochondrial biogenesis , biology , phosphorylation , microbiology and biotechnology , peroxisome , diabetes mellitus , receptor
X‐linked adrenoleukodystrophy (X‐ ALD ) is a progressive neurometabolic disease caused by mutations/deletions in the Abcd1 gene. Similar mutations/deletions in the Abcd1 gene often result in diagonally opposing phenotypes of mild adrenomyeloneuropathy and severe neuroinflammatory cerebral adrenoleukodystrophy ( ALD ), which suggests involvement of downstream modifier genes. We recently documented the first evidence of loss of AMP ‐activated protein kinase α1 ( AMPK α1) in ALD patient‐derived cells. Here, we report the novel loss of AMPK α1 in postmortem brain white matter of patients with ALD phenotype. Pharmacological activation of AMPK can rescue the mitochondrial dysfunction and inhibit the pro‐inflammatory response. The FDA approved anti‐diabetic drug Metformin, a well‐known AMPK activator, induces mitochondrial biogenesis and is documented for its anti‐inflammatory role. We observed a dose‐dependent activation of AMPK α1 in metformin‐treated X‐ ALD patient‐derived fibroblasts. Metformin also induced mitochondrial oxidative phosphorylation and ATP levels in X‐ ALD patient‐derived fibroblasts. Metformin treatment decreased very long chain fatty acid levels and pro‐inflammatory cytokine gene expressions in X‐ ALD patient‐derived cells. Abcd2 [adrenoleukodystrophy protein‐related protein] levels were increased in metformin‐treated X‐ ALD patient‐derived fibroblasts and Abcd1‐ KO mice primary mixed glial cells. Abcd2 induction was AMPK α1‐dependent since metformin failed to induce Abcd2 levels in AMPK α1‐ KO mice‐derived primary mixed glial cells. In vivo metformin (100 mg/Kg) in drinking water for 60 days induced Abcd2 levels and mitochondrial oxidative phosphorylation protein levels in the brain and spinal cord of Abcd1‐ KO mice. Taken together, these results provide proof‐of‐principle for therapeutic potential of metformin as a useful strategy for correcting the metabolic and inflammatory derangements in X‐ ALD by targeting AMPK .There is no effective therapy for inherited peroxisomal disorder X‐linked adrenoleukodystrophy (X‐ ALD ). We document the therapeutic potential of FDA approved drug, Metformin, for X‐ ALD by targeting AMPK . Metformin induced peroxisomal Abcd2 levels in vitro and in vivo . Metformin lowered VLCFA levels, improved mitochondrial function and ameliorated inflammatory gene expression in X‐ ALD patient‐derived cells. Metformin‐induced Abcd2 levels were dependent on AMPK α1, a metabolic and anti‐inflammatory gene, recently documented by our laboratory to play a putative role in X‐ ALD pathology. Read the Editorial Highlight for this article on page 10 .