Cloning and molecular structure analysis of crustacean hyperglycemic hormone(Ers-CHH)in Eriocheir sinensis

Abstract

Crustacean hyperglycemic hormone(CHH)is a peptide hormone originally identified in a crustacean neurosecretory complex,the X-organ/sinus gland complex,and located within the eyestalks.CHH is placed in the crustacean hyperglycemic hormone family,which also includes molt-inhibiting hormone(MIH),vitellogenesis-inhibiting hormone(VIH)or gonad-inhibiting hormone(GIH),mandibular organ-inhibiting hormone(MOIH)and insect ion transport peptide(ITP).CHH plays a significant role in the growth,molting and reproduction of crustaceans.By using degenerate primers which were designed according to the N-terminal amino acid sequences of CHH isolated by our lab and the sequences of homologous species CHH,a novel cDNA of crustacean hyperglycemic hormone gene(Ers-CHH,GenBank Accession No:JX485664)was cloned from Chinese mitten crab(Eriocheir sinensis).The full length cDNA consists of 585 bp with a 453 bp open reading frame,encoding 150 amino acids,containing a 30 amino acids signal peptide,and a 42 amino acids CHH precursor-related peptide,a 78 amino acids mature peptide.The mature peptide contains 6 conserved cysteines which formed three disulfide bonds C7-C43、C23-C39、C26-C52.There was an arthropod CHH/MIH/GIH neurohormones family signature in this domain.The three-dimensional structure prediction showed that Ers-CHH mature peptide consisted of 4 α-helixes,and not with the β-sheet structure.5 Prosite patterns,which were analyzed by a Swiss-PdbViewer(v4.0.4),are P5:Protein kinase C phosphorylation site(Ser6,Lys8);P6:Casein kinase Ⅱ phosphorylation site(Ser17,Glu20);P8:N-myristoylation site(Gly38,Cys39,Asn42,Cys43);PS00342:Microbodies C-terminal targeting signal(Ser17,Lys18,Leu19);PS01250:Arthropod CHH/MIH/GIH neurohormones family(Val35,Cys39,Arg40,Asn42,Cys43,Tyr44,Asn46,Phe49,Cys52).The results of the structural model comparison show that the structure of Ers-CHH has high similarity with other CHHs and Ers-CHH.They have no β-sheet structure,except that CHH has 4α-helixes,MIH has 5α-helixes.Although α1 helix of MIH could not be found in CHHs,the position and the amino acid number of α2-α5 helixes in MIH molecular were same as the α1-α4 helixes in CHH.It might be able to interpret the function similarity between CHH and MIH.Multiple alignment results showed that Ers-CHH has the highest identity with Ptychognathus pusillus CHH(92%),and it also shared high identities with Neohelice granulata(86%)and Pachygrapsus marmoratus(72%).However,it showed lower identity with CHH from crayfishes,such as Nephrops norvegicus(49%)and Homarus gammarus(46%).Multiple alignments of Ers-CHH and MIH from other crustaceans showed that only six amino acid residues(Arg13,Asp25,Asn28,Arg31,Arg40,Phe49)in Ers-CHH sequence were same with MIH sequences.It may be helpful for further research on regulation mechanism of CHH in the process of crab growth and carbohydrate metabolism.