New insights into evolution of crustacean hyperglycaemic hormone in decapods – first characterization in Anomura

The neuropeptides of the crustacean hyperglycaemic hormone (CHH) family are encoded by a multigene family and are involved in a wide spectrum of essential functions. In order to characterize CHH family peptides in one of the last groups of decapods not yet investigated, CHH was studied in two anomurans: the hermit crab Pagurus bernhardus and the squat lobster Galathea strigosa . Using RT‐PCR and 3′ and 5′ RACE methods, a preproCHH cDNA was cloned from the major neuroendocrine organs (X‐organs) of these two species. Hormone precursors deduced from these cDNAs in P. bernhardus and G. strigosa are composed of signal peptides of 29 and 31 amino acids, respectively, and CHH precursor‐related peptides (CPRPs) of 50 and 40 amino acids, respectively, followed by a mature hormone of 72 amino acids. The presence of these predicted CHHs and their related CPRPs was confirmed by performing MALDI‐TOF mass spectrometry on sinus glands, the main neurohaemal organs of decapods. These analyses also suggest the presence, in sinus glands of both species, of a peptide related to the moult‐inhibiting hormone (MIH), another member of the CHH family. Accordingly, immunostaining of the X‐organ/sinus gland complex of P. bernhardus with heterologous anti‐CHH and anti‐MIH sera showed the presence of distinct cells producing CHH and MIH‐like proteins. A phylogenetic analysis of CHHs, including anomuran sequences, based on maximum‐likelihood methods, was performed. The phylogenetic position of this taxon, as a sister group to Brachyura, is in agreement with previously reported results, and confirms the utility of CHH as a molecular model for understanding inter‐taxa relationships. Finally, the paraphyly of penaeid CHHs and the structural diversity of CPRPs are discussed.