Ebrahim Asadollahi scite author profile

Ebrahim Asadollahi

4Publications

36Citation Statements Received

340Citation Statements Given

How they've been cited

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320

Affiliations

Max Planck Institute of Experimental Medicine

Publications

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Peroxisomal dysfunctions cause lysosomal storage and axonal Kv1 channel redistribution in peripheral neuropathy

Kleinecke

Richert

Hoz

et al. 2017

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Impairment of peripheral nerve function is frequent in neurometabolic diseases, but mechanistically not well understood. Here, we report a novel disease mechanism and the finding that glial lipid metabolism is critical for axon function, independent of myelin itself. Surprisingly, nerves of Schwann cell-specific Pex5 mutant mice were unaltered regarding axon numbers, axonal calibers, and myelin sheath thickness by electron microscopy. In search for a molecular mechanism, we revealed enhanced abundance and internodal expression of axonal membrane proteins normally restricted to juxtaparanodal lipid-rafts. Gangliosides were altered and enriched within an expanded lysosomal compartment of paranodal loops. We revealed the same pathological features in a mouse model of human Adrenomyeloneuropathy, preceding disease-onset by one year. Thus, peroxisomal dysfunction causes secondary failure of local lysosomes, thereby impairing the turnover of gangliosides in myelin. This reveals a new aspect of axon-glia interactions, with Schwann cell lipid metabolism regulating the anchorage of juxtaparanodal Kv1-channels.DOI: http://dx.doi.org/10.7554/eLife.23332.001

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Myelin lipids as nervous system energy reserves

Asadollahi¹,

Trevisiol

Saab

et al. 2022

Preprint

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Neuronal functions and impulse propagation depend on the continuous supply of glucose1,2. Surprisingly, the mammalian brain has no obvious energy stores, except for astroglial glycogen granules3. Oligodendrocytes make myelin for rapid axonal impulse conduction4 and also support axons metabolically with lactate5-7. Here, we show that myelin itself, a lipid-rich membrane compartment, becomes a local energy reserve when glucose is lacking. In the mouse optic nerve, a model white matter tract, oligodendrocytes survive glucose deprivation far better than astrocytes, by utilizing myelin lipids which requires oxygen and fatty acid beta-oxidation. Importantly, fatty acid oxidation also contributes to axonal ATP and basic conductivity. This metabolic support by fatty acids is an oligodendrocyte function, involving mitochondria and myelin-associated peroxisomes, as shown with mice lacking Mfp2. To study reduced glucose availability in vivo without physically starving mice, we deleted the Slc2a1 gene from mature oligodendrocytes. This caused a significant decline of the glucose transporter GLUT1 from the myelin compartment leading to myelin sheath thinning. We suggest a model in which myelin turnover under low glucose conditions can transiently buffer axonal energy metabolism. This model may explain the gradual loss of myelin in a range of neurodegenerative diseases8 with underlying hypometabolism9.

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Author response: Peroxisomal dysfunctions cause lysosomal storage and axonal Kv1 channel redistribution in peripheral neuropathy

Kleinecke

Richert

Hoz

et al. 2017

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Myelin lipids are energy reserves in the nervous system

Asadollahi¹

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Date of oral examination: 17.04.2020 declaration I hereby declare that the PhD thesis entitled "Myelin lipids are energy reserves in the nervous system", was written independently and with no other sources and aids than quoted. Göttingen, 06.03.2020 Ebrahim Asadollahi UV Ultraviolet v/v Volume/volume VLCFA Very long chain fatty acid WM White matter w/v Weight/volume YFP Yellow fluorescent proteinInternational System of Units (SI) was used throughout this thesis.

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