Abcd2 is a strong modifier of the metabolic impairments in peritoneal macrophages of ABCD1-deficient mice.

[x-linked adrenoleukodystrophy]

The inherited peroxisomal disorder X-linked adrenoleukodystrophy (X-ALD ), associated with neurodegeneration and inflammatory cerebral demyelination , is caused by mutations in the ABCD 1 gene encoding the peroxisomal ATP-binding cassette (ABC ) transporter ABCD 1 (ALDP ). ABCD 1 transports CoA-esters of very long -chain fatty acids (VLCFA ) into peroxisomes for degradation by β-oxidation ; thus , ABCD 1 deficiency results in VLCFA accumulation . The closest homologue , ABCD 2 (ALDRP ), when overexpressed , compensates for ABCD 1 deficiency in X-ALD fibroblasts and in Abcd 1 -deficient mice . Microglia /macrophages have emerged as important players in the progression of neuroinflammation . Human monocytes , lacking significant expression of ABCD 2 , display severely impaired VLCFA metabolism in X-ALD . Here , we used thioglycollate-elicited primary mouse peritoneal macrophages (MPMΦ ) from Abcd 1 and Abcd 2 single - and double -deficient mice to establish how these mutations affect VLCFA metabolism . By quantitative RT-PCR , Abcd 2 mRNA was about half as abundant as Abcd 1 mRNA in wild-type and similarly abundant in Abcd 1 -deficient MPMΦ . VLCFA (C 2 6 ∶0 ) accumulated about twofold in Abcd 1 -deficient MPMΦ compared with wild-type controls , as measured by gas chromatography-mass spectrometry . In Abcd 2 -deficient macrophages VLCFA levels were normal . However , upon Abcd 1 /Abcd 2 double -deficiency , VLCFA accumulation was markedly increased (sixfold ) compared with Abcd 1 -deficient MPMΦ . Elovl 1 mRNA , encoding the rate-limiting enzyme for elongation of VLCFA , was equally abundant across all genotypes . Peroxisomal β-oxidation of C 2 6 ∶0 amounted to 62 % of wild-type activity in Abcd 1 -deficient MPMΦ and was significantly more impaired (29 % residual activity ) upon Abcd 1 /Abcd 2 double -deficiency . Single Abcd 2 deficiency did not significantly compromise β-oxidation of C 2 6 ∶0 . Thus , the striking accumulation of VLCFA in double -deficient MPMΦ compared with single Abcd 1 deficiency was due to the loss of ABCD 2 -mediated , compensatory transport of VLCFA into peroxisomes . We propose that moderate endogenous expression of Abcd 2 in Abcd 1 -deficient murine macrophages prevents the severe metabolic phenotype observed in human X-ALD monocytes , which lack appreciable expression of ABCD 2 . This supports upregulation of ABCD 2 as a therapeutic concept in X-ALD .