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Ass. Lect. Mohammed Elsayed Mohammed Elasrag :: Publications:

Title:
Mutations in the polyglutamylase gene TTLL5, expressed in photoreceptor cells and spermatozoa, are associated with cone-rod degeneration and reduced male fertility
Authors: Bedoni N*, Haer-Wigman L*, Vaclavik V, Tran HV, Farinelli P, Balzano S, Royer-Bertrand B, El-Asrag ME, Bonny O, Ikonomidis C, Litzistorf Y, Nikopoulos K, Yioti G, Stefaniotou M, McKibbin M, Ellingford J, Booth AP, Black G, Toomes C, Inglehearn CF, Hoyng C
Year: 2016
Keywords: alleles mutation genetic disorder retinal cone fertility flagella genes homozygote infertility photoreceptors protein isoforms retinal degeneration retinal diseases sperm cell vision antibodies mice rats retina sperm motility testis tissue degeneration massively-parallel genome sequencing
Journal: Human Molecular Genetics
Volume: 25
Issue: 20
Pages: 4546–4555
Publisher: Oxoford Academic
Local/International: International
Paper Link:
Full paper Not Available
Supplementary materials Not Available
Abstract:

Hereditary retinal degenerations encompass a group of genetic diseases characterized by extreme clinical variability. Following next-generation sequencing and autozygome-based screening of patients presenting with a peculiar, recessive form of cone-dominated retinopathy, we identified five homozygous variants [p.(Asp594fs), p.(Gln117*), p.(Met712fs), p.(Ile756Phe), and p.(Glu543Lys)] in the polyglutamylase-encoding gene TTLL5, in eight patients from six families. The two male patients carrying truncating TTLL5 variants also displayed a substantial reduction in sperm motility and infertility, whereas those carrying missense changes were fertile. Defects in this polyglutamylase in humans have recently been associated with cone photoreceptor dystrophy, while mouse models carrying truncating mutations in the same gene also display reduced fertility in male animals. We examined the expression levels of TTLL5 in various human tissues and determined that this gene has multiple viable isoforms, being highly expressed in testis and retina. In addition, antibodies against TTLL5 stained the basal body of photoreceptor cells in rat and the centrosome of the spermatozoon flagellum in humans, suggesting a common mechanism of action in these two cell types. Taken together, our data indicate that mutations in TTLL5 delineate a novel, allele-specific syndrome causing defects in two as yet pathogenically unrelated functions, reproduction and vision.

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