TY - JOUR
T1 - PAX7 mutation in a syndrome of failure to thrive, hypotonia, and global neurodevelopmental delay
AU - Proskorovski-Ohayon, Regina
AU - Kadir, Rotem
AU - Michalowski, Analia
AU - Flusser, Hagit
AU - Perez, Yonatan
AU - Hershkovitz, Eli
AU - Sivan, Sara
AU - Birk, Ohad S.
N1 - Publisher Copyright:
© 2017 Wiley Periodicals, Inc.
PY - 2017/12/1
Y1 - 2017/12/1
N2 - PAX7 encodes a transcription factor essential in neural crest formation, myogenesis, and pituitary lineage specification. Pax7 null mice fail to thrive and exhibit muscle weakness, dying within 3 weeks. We describe a human autosomal-recessive syndrome, with failure to thrive, severe global developmental delay, microcephaly, axial hypotonia, pyramidal signs, dystonic postures, seizures, irritability, and self-mutilation. Aside from low blood carnitine levels, biochemical and metabolic screen was normal, with growth hormone deficiency in one patient. Electromyography was normal, with no specific findings in brain MRI/MRS yet nondemonstrable neuropituitary, a finding of unclear significance. Muscle biopsy showed unaffected overall organization of muscle fibers, yet positive fetal alpha myosin staining, suggesting regeneration. Homozygosity mapping with whole-exome sequencing identified a single disease-associated mutation in PAX7, segregating as expected in the kindred with no homozygosity in 200 ethnically matched controls. Transfection experiments showed that the PAX7 splice-site mutation putatively causes nonsense-mediated mRNA decay affecting onlyPAX7 isoform 3. This isoform, expressed specifically in brain, skeletal muscle and testes, is the sole Pax7 variant normally found in mice. The human muscle phenotype is in line with that in conditional Pax7 null mutant mice, where initial aberrant histological findings resolve postnatally through muscle regeneration.
AB - PAX7 encodes a transcription factor essential in neural crest formation, myogenesis, and pituitary lineage specification. Pax7 null mice fail to thrive and exhibit muscle weakness, dying within 3 weeks. We describe a human autosomal-recessive syndrome, with failure to thrive, severe global developmental delay, microcephaly, axial hypotonia, pyramidal signs, dystonic postures, seizures, irritability, and self-mutilation. Aside from low blood carnitine levels, biochemical and metabolic screen was normal, with growth hormone deficiency in one patient. Electromyography was normal, with no specific findings in brain MRI/MRS yet nondemonstrable neuropituitary, a finding of unclear significance. Muscle biopsy showed unaffected overall organization of muscle fibers, yet positive fetal alpha myosin staining, suggesting regeneration. Homozygosity mapping with whole-exome sequencing identified a single disease-associated mutation in PAX7, segregating as expected in the kindred with no homozygosity in 200 ethnically matched controls. Transfection experiments showed that the PAX7 splice-site mutation putatively causes nonsense-mediated mRNA decay affecting onlyPAX7 isoform 3. This isoform, expressed specifically in brain, skeletal muscle and testes, is the sole Pax7 variant normally found in mice. The human muscle phenotype is in line with that in conditional Pax7 null mutant mice, where initial aberrant histological findings resolve postnatally through muscle regeneration.
KW - Pax7
KW - developmental delay
KW - hypotonia
KW - splice-site mutation
UR - http://www.scopus.com/inward/record.url?scp=85030170769&partnerID=8YFLogxK
U2 - 10.1002/humu.23310
DO - 10.1002/humu.23310
M3 - Article
C2 - 28779497
AN - SCOPUS:85030170769
SN - 1059-7794
VL - 38
SP - 1671
EP - 1683
JO - Human Mutation
JF - Human Mutation
IS - 12
ER -