A homologue of cathepsin L identified in conditioned medium from Sf9 insect cells

Role of interactions between Autographa californica multiple nucleopolyhedrovirus procathepsin and chitinase chitin-binding or active-site domains in viral cathepsin processing

The binding of Autographa californica multiple nucleopolyhedrovirus chitinase (CHIA) to viral cathepsin protease progenitor (proV-CATH) governs cellular/endoplasmic reticulum (ER) coretention of CHIA and proV-CATH, thus coordinating simultaneous cellular release of both host tissue-degrading enzymes upon host cell death. CHIA is a proposed proV-CATH folding chaperone because insertional inactivation of chiA causes production of proV-CATH aggregates that are incompetent for proteolytic maturation into active V-CATH enzyme. We wanted to determine whether the N-terminal chitin-binding domain (CBD, 149 residues) and C-terminal CHIA active-site domain (ASD, 402 residues) of CHIA bind to proV-CATH independently of one another and whether either domain is dispensable for CHIA's putative proV-CATH folding chaperone activity. We demonstrate that N-terminally green fluorescent protein (GFP)-fused CHIA, ASD, and CBD each colocalize with proV-CATH-RFP in ER-like patterns and that both ASD and CBD independently associate with proV-CATH in vivo using bimolecular fluorescence complementation (BiFC) and in vitro using reciprocal nickel-histidine pulldown assays. Altogether, the data from colocalization, BiFC, and reciprocal copurification analyses suggest specific and independent interactions between proV-CATH and both domains of CHIA. These data also demonstrate that either CHIA domain is dispensable for normal proV-CATH processing. Furthermore, in contrast to prior evidence suggesting that a lack of chiA expression causes proV-CATH to become aggregated, insoluble, and unable to mature into V-CATH, a chiA deletion bacmid virus we engineered to express just v-cath produced soluble proV-CATH that was prematurely secreted from cells and proteolytically matured into active V-CATH enzyme.

Stable expression of an active soluble recombinant form of human fucosyltransferase IX in Spodoptera frugiperda Sf9 cells

A secretory form of human alpha3-fucosyltransferase IX (sFUT9) was overexpressed in Spodoptera frugiperda (Sf9) insect cells using the stable expression vector pIB/V5-His-TOPO and the signal sequence of human interleukin 2 for efficient secretion. sFUT9 was active and its three potential N-glycosylation sites were occupied. sFUT9 efficiently fucosylated the type II acceptors Galbeta4GlcNAC-R and Fucalpha2Galbeta4GlcNAc-R (R = (CH2)3NHCO(CH2)5-NH-biotin) but not the corresponding sialylated acceptor, and only very poorly the type I (Galbeta3GlcNAc-R) related acceptors. sFUT9 showed a clear preference for glycoproteins containing type II acceptors, with values of 121, 113 and 110 microU/million cell for asialofetuin, erythropoietin and asialoerythropoietin, respectively, values approximately 11-fold higher than those obtained for the small acceptors.