Abstract

Hypocretins/orexins are neuropeptides involved in the regulation of sleep and energy balance in mammals. Conservation of gene sequence, hypothalamic localization of cell bodies, and projection patterns in adult zebrafish suggest that the architecture and function of the hypocretin system are conserved in fish. We report on the complete genomic structure of the zebrafish and Tetraodon hypocretin genes and the complete predicted hypocretin protein sequences from five teleosts. Using whole mount in situ hybridization, we have traced the development of hypocretin cells in zebrafish from onset of expression at 22 h post-fertilization through the first week of development. Promoter elements of similar size from zebrafish and Tetraodon were capable of driving efficient and specific expression of enhanced green fluorescent protein in developing zebrafish embryos, thus defining a minimal promoter region able to accurately mimic the native hypocretin pattern. This enhanced green fluorescent protein expression also revealed a complex pattern of projections within the hypothalamus, to the midbrain, and to the spinal cord. To further analyze the promoter, a series of deletion and substitution constructs were injected into embryos, and resulting promoter activity was monitored in the first week of development. A critical region of 250 base pairs was identified containing a core 13-base pair element essential for hypocretin expression.

Highlights

  • We report on the complete genomic structure of the zebrafish and Tetraodon hypocretin genes and the complete predicted hypocretin protein sequences from five teleosts

  • The hypocretin/orexin peptides (HCRT-1 and HCRT-2)3 are neurotransmitters involved in the regulation of sleep and energy balance [1]

  • We identified two-exon hcrt genes in other teleosts through searches of genome databases and subsequent analysis of the regions surrounding the hits

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Summary

Introduction

The hypocretin/orexin peptides (HCRT-1 and HCRT-2)3 are neurotransmitters involved in the regulation of sleep and energy balance [1]. Conservation of gene sequence, hypothalamic localization of cell bodies, and projection patterns in adult zebrafish suggest that the architecture and function of the hypocretin system are conserved in fish. The hypocretin gene is conserved in teleost genomes and is expressed in lateral hypothalamic cell clusters in the adult zebrafish [21].

Results
Conclusion

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