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Identification of Novel Mutations Confirms PDE4D as a Major Gene Causing Acrodysostosis
Author(s) -
Lynch Danielle C.,
Dyment David A.,
Huang Lijia,
Nikkel Sarah M.,
Lacombe Didier,
Campeau Philippe M.,
Lee Brendan,
Bacino Carlos A.,
Michaud Jacques L.,
Bernier Francois P.,
Consortium FORGE Canada,
Parboosingh Jillian S.,
Innes A. Micheil
Publication year - 2013
Publication title -
human mutation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.981
H-Index - 162
eISSN - 1098-1004
pISSN - 1059-7794
DOI - 10.1002/humu.22222
Subject(s) - pseudohypoparathyroidism , brachydactyly , biology , missense mutation , genetics , short stature , gene , mutation , endocrinology , medicine , parathyroid hormone , calcium
Acrodysostosis is characterized by nasal hypoplasia, peripheral dysostosis, variable short stature, and intellectual impairment. Recently, mutations in PRKAR1A were reported in patients with acrodysostosis and hormone resistance. Subsequently, mutations in a phosphodiesterase gene ( PDE4D ) were identified in seven sporadic cases. We sequenced PDE4D in seven acrodysostosis patients from five families. Missense mutations were identified in all cases. Families showed de novo inheritance except one family with three affected children whose father was subsequently found to have subtle features of acrodysostosis. There were no recurrent mutations. Short stature and endocrine resistance are rare in this series; however, cognitive involvement and obesity were frequent. This last finding is relevant given PDE4D is insulin responsive and potentially involved in lipolysis. PDE4D encodes a cyclic AMP regulator and places PDE4D ‐related acrodysostosis within the same family of diseases as pseudohypoparathyroidism, pseudopseudohypoparathyroidism, PRKAR1A ‐related acrodysostosis and brachydactyly‐mental retardation syndrome; all characterized by cognitive impairment and short distal extremities.