Abstract
BackgroundLeptin is an adipocyte-derived hormone with multiple functions that regulates energy homeostasis and reproductive functions. Increased knowledge of leptin receptor function will enhance our understanding of the physiological roles of leptin in animals.Methodology/Principal FindingsIn the present study, a full-length leptin receptor (lepr) cDNA, consisting of 1,353 nucleotides, was cloned from Chinese mitten crab (Eriocheir sinensis) using rapid amplification of cDNA ends (RACE) following the identification of a single expressed sequence tag (EST) clone in a cDNA library. The lepr cDNA consisted of a 22-nucleotide 5′-untranslated region (5′ UTR), a 402-nucleotide open reading frame (ORF) and a 929-nucleotide 3′ UTR. Multiple sequence alignments revealed that Chinese mitten crab lepr shared a conserved vacuolar protein sorting 55 (Vps55) domain with other species. Chinese mitten crab lepr expression was determined in various tissues and at three different reproductive stages using quantitative real-time RT-PCR. Lepr expression was highest in the intestine, thoracic ganglia, gonad, and accessory gonad, moderate in hepatopancreas and cranial ganglia, and low in muscle, gill, heart, haemocytes, and stomach. Furthermore, lepr expression was significantly higher in the intestine, gonad and thoracic ganglia in immature crabs relative to precocious and mature crabs. In contrast, lepr expression was significantly lower in the hepatopancreas of immature crabs relative to mature crabs.Conclusions/SignificanceWe are the first to identify the lepr gene and to determine its gene expression patterns in various tissues and at three different reproductive stages in Chinese mitten crab. Taken together, our results suggest that lepr may be involved in the nutritional regulation of metabolism and reproduction in Chinese mitten crabs.
Highlights
Leptin is multifunctional hormone synthesized primarily by adipocytes [1]
Results cDNA Cloning and Sequence Analysis of E. sinensis lepr The full-length E. sinensis lepr cDNA was cloned by RT-PCR
Genomic Cloning and Genetic Structure of E. sinensis lepr The genomic clone of E. sinensis lepr consists of 3,880 bp and is comprised of four exons interrupted by three introns (Fig. 2)
Summary
Leptin is multifunctional hormone synthesized primarily by adipocytes [1]. Leptin is involved in the control of food intake, energy expenditure and metabolism, and in the regulation of reproduction [2,3]. Leptin may act as a critical link between adipose tissue and the neuroendocrine axis, determining whether existing fat energy reserves are sufficient for normal reproductive function [4,5]. Leptin influences satiety and adiposity and is associated with the regulation of puberty onset, fertility and pregnancy in a variety of species [6]. Increasing evidence indicates that leptin is produced in many tissues other than adipocytes, and that enhanced leptin levels are associated with the advent of reproductive maturity and fertility [7,8], including gonad maturation and embryonic development [9]. Leptin is an adipocyte-derived hormone with multiple functions that regulates energy homeostasis and reproductive functions. Increased knowledge of leptin receptor function will enhance our understanding of the physiological roles of leptin in animals
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