... (more)

ore than 700 identified genes. In a recent review, among over 100 X-linked intellectual disability causative genes, eight were reported as "awaiting replication." Exome sequencing in a large family identified a missense mutation in RPL10 highly suggestive of X-linked intellectual disability. Herein, we report on the clinical description of four affected males. All patients presented apparent intellectual disability (4/4), psychomotor delay (4/4) with syndromic features including amniotic fluid excess (3/4), microcephaly (2/4), urogenital anomalies (3/4), cerebellar syndrome (2/4), and facial dysmorphism. In the literature, two mutations were reported in three families with affected males presenting with autism. This report confirms the implication of RPL10 mutations in neurodevelopmental disorders and extends the associated clinical spectrum from autism to syndromic intellectual disability.

... (more)

llectual disability (XLID) next-generation sequencing diagnostic panel, we identified a novel missense mutation in the gene encoding 60S ribosomal protein L10 (RPL10), a locus associated previously with autism spectrum disorders (ASD); the p.K78E change segregated with disease under an X-linked recessive paradigm while, consistent with causality, carrier females exhibited skewed X inactivation. To examine the functional consequences of the p.K78E change, we modeled RPL10 dysfunction in zebrafish. We show that endogenous rpl10 expression is augmented in anterior structures, and that suppression decreases head size in developing morphant embryos, concomitant with reduced bulk translation and increased apoptosis in the brain. Subsequently, using in vivo complementation, we demonstrate that p.K78E is a loss-of-function variant. Together, our findings suggest that a mutation within the conserved N-terminal end of RPL10, a protein in close proximity to the peptidyl transferase active site of the 60S ribosomal subunit, causes severe defects in brain formation and function.

... (more)

amily, 414 additional patients with oligo-/azoospermia, and 223 fertile (control) subjects.
INVENTION(S): None.
MAIN OUTCOME MEASURE(S): Genetic analyses using whole-exome and Sanger sequencing were performed for two brothers with severe oligozoospermia. The effects of an identified candidate causative mutation were investigated in silico and in vitro. Whole-exome sequencing screening for the candidate mutation was conducted in 414 patients with oligo-/azoospermia and 223 fertile subjects.
RESULT(S): A homozygous missense variant (NM_080746:c.A257C: p.H86P) in RPL10L was identified in the two affected brothers and shown to cosegregate with the severe oligozoospermia phenotype. The mutation was absent in public databases, including the 1000 Genomes Project and the Exome Aggregation Consortium. All queried databases predicted the mutation to be damaging, consistent with the fact that it decreased protein levels in vitro. Subsequent mutation screening identified three additional heterozygous RPL10L mutations in three of 414 subjects with oligo-/azoospermia, but no RPL10L mutations among 223 fertile subjects.
CONCLUSION(S): Our findings implicate RPL10L as a novel candidate gene in the pathogenesis of human male factor infertility and severe oligozoospermia.