Identification and expression profiles of ERK2 and ERK5 in large yellow croaker (Larimichthys crocea) after temperature stress and immune challenge.

Fish is highly affected by many environmental stresses such as temperature and invasive infection. The extracellular signal-regulated kinase (ERK) pathway, part of the mitogen-activated protein kinase (MAPK) family, is found to act as crucial mediators for cell differentiation, proliferation and cell response to various stresses. In the present study, ERK2 (LcERK2) and ERK5 (LcERK2) were cloned and characterized from large yellow croaker, Larimichthys crocea. The full length cDNA sequence of LcERK2 was of 1910 bp, including an ORF of 1110bp encoding a polypeptide of 369 amino acids. The full length cDNA sequence of LcERK5 was of 3720bp, including an ORF of 3375bp encoding a polypeptide of 1124 amino acids. Multiple alignments showed that both LcERK2 and LcERK5 contained highly conserved TEY motif and S&#95;TKc domain in MAPK family and the unique catalytic and active structures of ERK2 and ERK5. Subcellular localization revealed that both LcERK2 and LcERK5 expressed in the cytoplasm and cell nucleus. The expression of LcERK2 and LcERK5 were detected in most tissues of large yellow croaker, with the most predominant expression of LcERK2 in brain and LcERK5 in gill, and the weakest expression of LcERK2 in liver and LcERK5 in intestine, respectively. The expression levels of LcERK2 and LcERK5 after temperature stress and poly I:C and flagellin challenge were investigated in LCK (L. crocea kidney) cells. After temperature stress, significant down-regulations of LcERK2 transcripts were detected after 10 °C stress (p < 0.05) whereas LcERK2 transcripts increased significantly after 35 °C stress (p < 0.05). However, significant down-regulations of LcERK5 expression were detected at most time points after both cold and heat stress (p < 0.05). However, significant up-regulations of LcERK2 and LcERK5 transcripts were found after immune challenge (p < 0.05). Our results showed that LcERK2 transcripts enhanced after heat stress and both LcERK2 and LcERK5 transcripts could be induced by immune challenge. These findings indicated that LcERK2 might be more important in fish response to high temperature stress and both LcERK2 and LcERK5 might play an important role in fish immune response.
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