HSP70 from the Antarctic sea urchin Sterechinus neumayeri: molecular characterization and expression in response to heat stress

Abstract Background: Heat stress proteins are implicated in stabilizing and refolding denatured proteins in vertebrates and invertebrates. Members of the Hsp70 gene family comprise the cognate heat shock protein (Hsc70) and inducible heat shock protein (Hsp70). However, the cDNA sequence and the expression of Hsp70 in the Antarctic sea urchin are unknown. Methods: We amplified and cloned a transcript sequence of 1991 bp from the Antarctic sea urchin Sterechinus neumayeri, experimentally exposed to heat stress (5 and 10 °C for 1, 24 and 48 h). RACE-PCR and qPCR were employed to determine Hsp70 gene expression, while western blot and ELISA methods were used to determine protein expression. Results: The sequence obtained from S. neumayeri showed high identity with Hsp70 members. Several Hsp70 family features were identified in the deduced amino acid sequence and they indicate that the isolated Hsp70 is related to the cognate heat shock protein type. The corresponding 70 kDa protein, called Sn-Hsp70, was immune detected in the coelomocytes and the digestive tract of S. neumayeri using a monospecific polyclonal antibody. We showed that S. neumayeri do not respond to acute heat stress by up-regulation of Sn-Hsp70 at transcript and protein level. Furthermore, the Sn-Hsp70 protein expression was not induced in the digestive tract. Conclusions: Our results provide the first molecular evidence that Sn-Hsp70 is expressed constitutively and is noninduced by heat stress in S. neumayeri.

Immunological strategy for detecting the pro-inflammatory cytokine TNF-alpha in salmonids

Background: Tumour necrosis factor-alpha (TNF-alpha) is a pro-inflammatory cytokine which exerts a variety of immunological functions in vertebrates. TNF-alpha has been identified and cloned in a number of teleost fish species; nevertheless, the functions displayed by this cytokine in fishes remain poorly understood, given that the low sequence identity compared to their mammalian counterpart, limit fish TNF-alpha detection using mammalian antibodies. Then, for fish immune response characterization is fundamental the production of specific fish anti-TNF-alpha antibody. Results: We have developed a monoespecific antibody against the pro-inflammatory molecule TNF-alpha of salmonid fish. TNF-alpha epitope region was identified and characterized using bioinformatic tools. The epitope sequence was chemically synthesized using Fmoc strategy, analyzed by RP-HPLC and its molecular weight confirmed by mass spectrometry. The synthetic peptide was used to immunize mice and antibodies from ascitic fluid were purified. The resulting antibody was used for molecular and histochemical detection in gut samples from salmonid fishes treated with different food. By ELISA, we detected a differential expression of TNF-alpha, the western blot analysis shows recognition of the whole TNF molecule and by immunohistochemistry TNF-alpha positive cells were observed. Conclusions: We provide an immunological tool, validated through classical immunological assays, which can be a useful tool for characterizing fish TNF-alpha function.