Pavlova viridis, a species of a unicellular marine microalgae, is rich in the very-long-chain polyunsaturated fatty acids, such as eicosapentaenoic acid (EPA, 20:5n-3) and docosahexaenoic acid (DHA, 22:6n-3). A new elongase gene (elkj), with high identity with a functionally characterized C20-elongase of Pavlova lutheri, was isolated via reverse transcriptase-polymerase chain reaction using the primers designed from conserved motifs and 5'/3' rapid amplification of cDNA ends. The coding region of 314 amino acids predicted a protein of 34 kDa, which contained seven transmembrane domains with its C-terminal in the cytoplasm and located in the endoplasmic reticulum. The expression of ELKJ in Escherichia coli was carried out by using green fluorescent protein as an indicator, suggesting the correct insertion in cytoplasmic membrane. Functional analysis demonstrated that elkj encoded a C20-elongase that mediated the elongation of EPA into docosapentaenoic acid (22:5n-3), confirming the two-step conversion from EPA to DHA in marine microalga.
Targeted delivery of antitumor drugs is especially important for tumor therapy. Cell‐penetrating peptides (CPPs) have been shown to be very effective drug carriers for tumor therapy. However, most CPPs lack tumor cell specificity. Here, we identified a highly efficient CPP, CAT, from the newly identified buffalo‐derived cathelicidin family, which exhibits a preferential binding capacity for multiple tumor cell lines and delivers carried drug molecules into cells. CAT showed an approximately threefold to sixfold higher translocation efficiency than some reported cell‐penetrating antimicrobial peptides, including the well‐known classical CPP TAT. Moreover, the delivery efficiency of CAT was greater in a variety of tested tumor cells than in normal cells, especially for the human hepatoma cell line SMMC‐7721, for which delivery was 7 times more efficient than the normal human embryonic lung cell line MRC‐5, according to fluorescent labeling experiment results. CAT was conjugated to the Momordica charantia‐derived type‐I ribosome‐inactivating protein MAP 30, and the cytotoxicity of the MAP 30‐CAT fusion protein in the tumor cell line SMMC‐7721 was significantly enhanced compared with that of the unconjugated MAP 30. The IC50 value of MAP 30‐CAT was approximately 83 times lower than the IC50 value of the original MAP 30. Interestingly, the IC50 value of MAP 30 alone for MRC‐5 was approximately twofold higher than the value for SMMC‐7721, showing a small difference. However, when MAP 30 was conjugated to CAT, the difference in IC50 values between the two cell lines was significantly increased by 38‐fold. The results of the flow cytometric detection of apoptosis revealed that the increase in cytotoxicity after CAT conjugation was mainly caused by the increased induction of apoptosis by the fusion protein. These results suggest that CAT, as a novel tumor‐homing CPP, has great potential in drug delivery applications in vivo and will be beneficial to the development of tumor therapeutics.
Human-derived cell penetrating peptides (CPPs) have attracted much more attentions than other CPPs which are limited by their potential toxicity and immunogenicity. Previously, we identified a novel human-originated CPP (named heparin-binding domain (HBD) in this article), which derived from the C-terminus of human extracellular superoxide dismutase, and demonstrated HBD is an efficient vector for delivering exogenous drug molecules such as apoptin into HeLa cells. In this study, we found this novel CPP showed differentiated efficiency in several tested cell lines. Heparin competitive inhibition experiment and heparanase pre-incubation experiment showed cell surface polysaccharides play an important role for the transmembrane transport. The results of endocytosis inhibitors suggested that HBD penetrates the cell membrane via a direct translocation, which is different from that of TAT, a classical clathrin-mediated endocytosis. HBD could deliver up to 90 kD protein cargoes into cells. Different conjugated modes with cargo molecules greatly affect their translocation efficiency. HBD also showed significant nuclear transport capacity when it was incubated with HeLa cells. Furthermore, the core region for HBD possessing membrane-penetrating ability was identified by deletion analyses. These results would be helpful for developing HBD as a new nuclear delivery tool for therapeutic biomolecules.
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