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Open Access Highly Accessed Research article

Histone deacetylase-4 is required during early cranial neural crest development for generation of the zebrafish palatal skeleton

April DeLaurier1*, Yukio Nakamura2, Ingo Braasch1, Vishesh Khanna1, Hiroyuki Kato3, Shigeyuki Wakitani4, John H Postlethwait1 and Charles B Kimmel1

Author affiliations

1 Institute of Neuroscience, 1254 University of Oregon, Eugene, OR, 97403, USA

2 Department of Orthopaedic Surgery, Showa-Inan General Hospital, Akaho 3230, Komagane, 399-4117, Japan

3 Department of Orthopaedic Surgery, Shinshu University School of Medicine, Asahi 3-1-1, Matsumoto, 390-8621, Japan

4 Department of Health and Sports Sciences, Mukogawa Women’s University, Nishinomiya, 663-8137, Japan

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Citation and License

BMC Developmental Biology 2012, 12:16  doi:10.1186/1471-213X-12-16

Published: 7 June 2012

Abstract

Background

Histone deacetylase-4 (Hdac4) is a class II histone deacetylase that inhibits the activity of transcription factors. In humans, HDAC4 deficiency is associated with non-syndromic oral clefts and brachydactyly mental retardation syndrome (BDMR) with craniofacial abnormalities.

Results

We identify hdac4 in zebrafish and characterize its function in craniofacial morphogenesis. The gene is present as a single copy, and the deduced Hdac4 protein sequence shares all known functional domains with human HDAC4. The zebrafish hdac4 transcript is widely present in migratory cranial neural crest (CNC) cells of the embryo, including populations migrating around the eye, which previously have been shown to contribute to the formation of the palatal skeleton of the early larva. Embryos injected with hdac4 morpholinos (MO) have reduced or absent CNC populations that normally migrate medial to the eye. CNC-derived palatal precursor cells do not recover at the post-migratory stage, and subsequently we found that defects in the developing cartilaginous palatal skeleton correlate with reduction or absence of early CNC cells. Palatal skeletal defects prominently include a shortened, clefted, or missing ethmoid plate, and are associated with a shortening of the face of young larvae.

Conclusions

Our results demonstrate that Hdac4 is a regulator of CNC-derived palatal skeletal precursors during early embryogenesis. Cleft palate resulting from HDAC4 mutations in human patients may result from defects in a homologous CNC progenitor cell population.

Keywords:
Cartilage; hdac4; Neural crest; Palate; Skeleton; Zebrafish