Functional analysis of a novel de novo variant in PPP5C associated with microcephaly, seizures, and developmental delay

We describe a proband evaluated through the Undiagnosed Diseases Network (UDN) who presented with microcephaly, developmental delay, and refractory epilepsy with a de novo p.Ala47Thr missense variant in the protein phosphatase gene, PPP5C. This gene has not previously been associated with a Mendelia...

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Published in:Molecular genetics and metabolism 2022-05, Vol.136 (1), p.65-73
Main Authors: Fielder, Sara M., Rosenfeld, Jill A., Burrage, Lindsay C., Emrick, Lisa, Lalani, Seema, Attali, Ruben, Bembenek, Joshua N., Hoang, Hieu, Baldridge, Dustin, Silverman, Gary A., Schedl, Tim, Pak, Stephen C.
Format: Article
Language:English
Subjects:
Animals
C. elegans
Caenorhabditis elegans - genetics
Caenorhabditis elegans Proteins - genetics
Child
Developmental delay
Developmental Disabilities - genetics
F-Box Proteins - genetics
Humans
Microcephaly
Microcephaly - genetics
Mutation, Missense
Nuclear Proteins - genetics
Phenotype
Phosphoprotein Phosphatases - genetics
PPH-5
PPP5C
Seizures - genetics
Separase - genetics
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creator Fielder, Sara M.
Rosenfeld, Jill A.
Burrage, Lindsay C.
Emrick, Lisa
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Baldridge, Dustin
Silverman, Gary A.
Schedl, Tim
Pak, Stephen C.
description We describe a proband evaluated through the Undiagnosed Diseases Network (UDN) who presented with microcephaly, developmental delay, and refractory epilepsy with a de novo p.Ala47Thr missense variant in the protein phosphatase gene, PPP5C. This gene has not previously been associated with a Mendelian disease, and based on the population database, gnomAD, the gene has a low tolerance for loss-of-function variants (pLI = 1, o/e = 0.07). We functionally evaluated the PPP5C variant in C. elegans by knocking the variant into the orthologous gene, pph-5, at the corresponding residue, Ala48Thr. We employed assays in three different biological processes where pph-5 was known to function through opposing the activity of genes, mec-15 and sep-1. We demonstrated that, in contrast to control animals, the pph-5 Ala48Thr variant suppresses the neurite growth phenotype and the GABA signaling defects of mec-15 mutants, and the embryonic lethality of sep-1 mutants. The Ala48Thr variant did not display dominance and behaved similarly to the reference pph-5 null, indicating that the variant is likely a strong hypomorph or complete loss-of-function. We conclude that pph-5 Ala48Thr is damaging in C. elegans. By extension in the proband, PPP5C p.Ala47Thr is likely damaging, the de novo dominant presentation is consistent with haplo-insufficiency, and the PPP5C variant is likely responsible for one or more of the proband's phenotypes.
doi_str_mv 10.1016/j.ymgme.2022.03.007
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source ScienceDirect Journals
subjects Animals
C. elegans
Caenorhabditis elegans - genetics
Caenorhabditis elegans Proteins - genetics
Child
Developmental delay
Developmental Disabilities - genetics
F-Box Proteins - genetics
Humans
Microcephaly
Microcephaly - genetics
Mutation, Missense
Nuclear Proteins - genetics
Phenotype
Phosphoprotein Phosphatases - genetics
PPH-5
PPP5C
Seizures - genetics
Separase - genetics
title Functional analysis of a novel de novo variant in PPP5C associated with microcephaly, seizures, and developmental delay
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