Abstract
Elongation of very long chain fatty acids-4 (ELOVL4) is essential for synthesis of very long chain polyunsaturated and saturated fatty acids (VLC-PUFA and VLC-SFA, respectively) of chain length greater than 26 carbons. Mutations in the ELOVL4 gene cause several distinct neurodegenerative diseases including Stargardt-like macular dystrophy (STGD3), spinocerebellar ataxia 34 (SCA34), and a neuro-ichthyotic syndrome with severe seizures and spasticity, as well as erythrokeratitis variabilis (EKV), a skin disorder. However, the relationship between ELOVL4 mutations, its VLC-PUFA and VLC-SFA products, and specific neurological symptoms remains unclear. We generated a knock-in rat line (SCA34-KI) that expresses the 736T>G (p.W246G) form of ELOVL4 that causes human SCA34. Lipids were analyzed by gas chromatography and mass spectrometry. Retinal function was assessed using electroretinography. Retinal integrity was assessed by histology, optical coherence tomography, and immunolabeling. Analysis of retina and skin lipids showed that the W246G mutation selectively impaired synthesis of VLC-SFA, but not VLC-PUFA. Homozygous SCA34-KI rats showed reduced ERG a- and b-wave amplitudes by 90 days of age, particularly for scotopic responses. Anatomical analyses revealed no indication of neurodegeneration in heterozygote or homozygote SCA34-KI rats out to 6–7 months of age. These studies reveal a previously unrecognized role for VLC-SFA in regulating retinal function, particularly transmission from photoreceptors to the inner retina, in the absence of neurodegeneration. Furthermore, these findings suggest that the tissue specificity and symptoms associated with disease-causing ELOVL4 mutations likely arise from selective differences in the ability of the mutant ELOVL4 enzymes to support synthesis of VLC-PUFA and/or VLC-SFA.
Highlights
Elongation of very long chain fatty acids-4 (ELOVL4) catalyzes the first, rate-limiting step in the synthesis of very long chain polyunsaturated and saturated fatty acids with fatty acid chain lengths of 28 carbons or more [VLC-PUFA and VLCSFA, respectively [1,2,3]]
VLCSFA are found in the Meibomian glands and skin, where they are incorporated into ω-O-acylceramides and form the water barrier of the tear film and skin [5, 11,12,13,14]
We generated a novel line of Long-Evans rats using CRISPR/ Cas9 by editing one copy of the wild-type (WT) Elovl4 allele in the rat genome to 736T>G (p.W246G) to generate the spinocerebellar ataxia 34 (SCA34)-KI rats (Fig. 1)
Summary
Elongation of very long chain fatty acids-4 (ELOVL4) catalyzes the first, rate-limiting step in the synthesis of very long chain polyunsaturated and saturated fatty acids with fatty acid chain lengths of 28 carbons or more [VLC-PUFA and VLCSFA, respectively [1,2,3]]. Expression of ELOVL4 is limited to a small number of organs including the retina, brain, skin, testes, and Meibomian gland [4,5,6], which show tissue-specific VLC-PUFA and VLC-SFA profiles. Our meticulous recent lipidomic analysis of mouse [7], rat, and baboon [3] brains using modern analytical tools found VLCSFA (28:0 and 30:0). These VLC-SFA were incorporated into complex sphingolipids and were enriched in synaptic vesicles prepared from baboon hippocampus, where they contribute to the regulation of presynaptic neurotransmitter release [3, 8]. VLC-PUFA in testes [19,20,21] are present in an amide linkage to sphingolipids [22,23,24]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
