Single subunit type of ferritin from visceral mass of Saccostrea cucullata: cloning, expression and cisplatin-subunit analysis

Ferritin, the iron storage protein, plays a key role in iron metabolism. Here, we have cloned an inducible ferritin cDNA with 516 bp within the open reading frame fragment from the visceral mass of Saccostrea cucullata. The subunit sequence of the ferritin was predicted to be a polypeptide of 171 amino acids with a molecular weight (MW) of 19.9182 kDa and an isoelectric point of 5.24. The cDNA sequence of S. cucullata ferritin was constructed into a pET-32a expression system for expressing its relative protein efficiently in the Escherichia coli BL21 strain under isopropyl-β-D-thiogalactoside (IPTG) induction. The recombinant ferritin, which was further purified on a Ni-NTA resin column and digested with enterokinase, was detected as a single subunit of approximately MW 20 kDa using both SDS-PAGE and mass spectrometry. S. cucullata ferritin (ScFer) showed 98% identity with Crassostrea gigas ferritin at the amino acid level. The secondary structure and phosphorylation sites of deduced amino acids were predicted with ExPASy proteomics tools and the NetPhos 2.0 server, respectively, and the subunit space structure of recombinant S. cucullata ferritin (rScFer) was built using the molecular operating environmental software system. The results of both in-gel digestion and identification using MALDI-TOF MS/MS showed that the recombinant protein was ScFer. ICP-MS indicated that rScFer subunit can directly bind to cisplatincis-Diaminedichloroplatinum(CDDP)], giving approximately 22.9 CDDP/ferritin subunit for forming a novel complex of CDDP-subunit, which suggests that it constructs a nanometer CDDP core-ferritin for developing a new drug of anti-cancer. The results of both the real-time PCR and Western blotting showed that the expression of ScFer mRNA was up-regulated in the oyster under the stress of Cd(2+). In addition, the expression increment of ScFer mRNA under bacterial challenge indicated that ferritin participated in the immune response of S. cucullata. The recombinant ScFer should prove to be useful for further study of the structure and function of ferritin in S. cucullata.