TY - JOUR
T1 - Mutations in NCAPG2 Cause a Severe Neurodevelopmental Syndrome that Expands the Phenotypic Spectrum of Condensinopathies
AU - Task Force for Neonatal Genomics
AU - Khan, Tahir N.
AU - Khan, Kamal
AU - Sadeghpour, Azita
AU - Reynolds, Hannah
AU - Perilla, Yezmin
AU - McDonald, Marie T.
AU - Gallentine, William B.
AU - Baig, Shahid M.
AU - Allori, Alexander
AU - Angrist, Misha
AU - Ashley, Patricia
AU - Bidegain, Margarita
AU - Boyd, Brita
AU - Chambers, Eileen
AU - Cope, Heidi
AU - Cotten, C. Michael
AU - Curington, Theresa
AU - Davis, Erica E.
AU - Ellestad, Sarah
AU - Fisher, Kimberley
AU - French, Amanda
AU - Gallentine, William
AU - Goldberg, Ronald
AU - Hill, Kevin
AU - Kansagra, Sujay
AU - Katsanis, Nicholas
AU - Katsanis, Sara
AU - Kurtzberg, Joanne
AU - Marcus, Jeffrey
AU - McDonald, Marie
AU - Mikati, Mohammed
AU - Miller, Stephen
AU - Murtha, Amy
AU - Pizoli, Carolyn
AU - Purves, Todd
AU - Ross, Sherry
AU - Smith, Edward
AU - Wiener, John
N1 - Publisher Copyright:
© 2018 American Society of Human Genetics
PY - 2019/1/3
Y1 - 2019/1/3
N2 - The use of whole-exome and whole-genome sequencing has been a catalyst for a genotype-first approach to diagnostics. Under this paradigm, we have implemented systematic sequencing of neonates and young children with a suspected genetic disorder. Here, we report on two families with recessive mutations in NCAPG2 and overlapping clinical phenotypes that include severe neurodevelopmental defects, failure to thrive, ocular abnormalities, and defects in urogenital and limb morphogenesis. NCAPG2 encodes a member of the condensin II complex, necessary for the condensation of chromosomes prior to cell division. Consistent with a causal role for NCAPG2, we found abnormal chromosome condensation, augmented anaphase chromatin-bridge formation, and micronuclei in daughter cells of proband skin fibroblasts. To test the functional relevance of the discovered variants, we generated an ncapg2 zebrafish model. Morphants displayed clinically relevant phenotypes, such as renal anomalies, microcephaly, and concomitant increases in apoptosis and altered mitotic progression. These could be rescued by wild-type but not mutant human NCAPG2 mRNA and were recapitulated in CRISPR-Cas9 F0 mutants. Finally, we noted that the individual with a complex urogenital defect also harbored a heterozygous NPHP1 deletion, a common contributor to nephronophthisis. To test whether sensitization at the NPHP1 locus might contribute to a more severe renal phenotype, we co-suppressed nphp1 and ncapg2, which resulted in significantly more dysplastic renal tubules in zebrafish larvae. Together, our data suggest that impaired function of NCAPG2 results in a severe condensinopathy, and they highlight the potential utility of examining candidate pathogenic lesions beyond the primary disease locus.
AB - The use of whole-exome and whole-genome sequencing has been a catalyst for a genotype-first approach to diagnostics. Under this paradigm, we have implemented systematic sequencing of neonates and young children with a suspected genetic disorder. Here, we report on two families with recessive mutations in NCAPG2 and overlapping clinical phenotypes that include severe neurodevelopmental defects, failure to thrive, ocular abnormalities, and defects in urogenital and limb morphogenesis. NCAPG2 encodes a member of the condensin II complex, necessary for the condensation of chromosomes prior to cell division. Consistent with a causal role for NCAPG2, we found abnormal chromosome condensation, augmented anaphase chromatin-bridge formation, and micronuclei in daughter cells of proband skin fibroblasts. To test the functional relevance of the discovered variants, we generated an ncapg2 zebrafish model. Morphants displayed clinically relevant phenotypes, such as renal anomalies, microcephaly, and concomitant increases in apoptosis and altered mitotic progression. These could be rescued by wild-type but not mutant human NCAPG2 mRNA and were recapitulated in CRISPR-Cas9 F0 mutants. Finally, we noted that the individual with a complex urogenital defect also harbored a heterozygous NPHP1 deletion, a common contributor to nephronophthisis. To test whether sensitization at the NPHP1 locus might contribute to a more severe renal phenotype, we co-suppressed nphp1 and ncapg2, which resulted in significantly more dysplastic renal tubules in zebrafish larvae. Together, our data suggest that impaired function of NCAPG2 results in a severe condensinopathy, and they highlight the potential utility of examining candidate pathogenic lesions beyond the primary disease locus.
KW - NCAPD3
KW - NCAPH2
KW - NPHP1
KW - cell cycle delay
KW - chromosome condensation
KW - genetic interaction
KW - microcephaly
KW - micronuclei
KW - renal cyst
KW - zebrafish
UR - http://www.scopus.com/inward/record.url?scp=85058852651&partnerID=8YFLogxK
U2 - 10.1016/j.ajhg.2018.11.017
DO - 10.1016/j.ajhg.2018.11.017
M3 - Article
C2 - 30609410
AN - SCOPUS:85058852651
SN - 0002-9297
VL - 104
SP - 94
EP - 111
JO - American Journal of Human Genetics
JF - American Journal of Human Genetics
IS - 1
ER -