A protein showing strong antiviral activity against Bombyx mori nucleopolyhedrovirus (BmNPV) was purified from the digestive juice of B. mori larvae. A homology search of the deduced amino acid sequence of the protein cDNA revealed 56% homology with Drosophila melanogaster lipase and 21% homology with human lipase. As lipase activity of the protein was confirmed in vitro, this protein was designated Bmlipase-1. Northern blot analysis showed that the Bmlipase-1 gene is expressed in the midgut but not in other tissues, nor is it activated by BmNPV infection. In addition, the Bmlipase-1 gene was shown not to be expressed in the molting and wandering stages, indicating that the gene is hormonally regulated. Our results suggest that an insect digestive enzyme has potential as a physiological barrier against BmNPV at the initial site of viral infection.Insects exhibit effective immune system measures such as humoral and cellular responses against microbial infection (4). Insect immunity in antibacterial reactions has been the most extensively studied (7,8,13). On the other hand, little is known about insect immunity against viruses (16). Bombyx mori nucleopolyhedrovirus (BmNPV) is a most significant virus in the sericultural industry, often causing severe economic damages. The immune mechanisms of B. mori against this virus remain totally obscure.The infection cycle of BmNPV is mediated by two phenotypically different viral particles: the occlusion-derived virus (ODV) and the budded virus (BV) (9). Occlusion bodies consisting of a crystalline matrix of polyhedron proteins contain ODV particles. When the occlusion bodies are ingested by B. mori larvae, they are dissolved by the alkaline gut juice. The enveloped virions are released and then initiate infection in the midgut columnar epithelial cells. In the case of Autographa californica multicapsid nucleopolyhedrovirus, it was shown that a proportion of the parental virus travels through the midgut epithelial layer, possibly utilizing the plasma membrane reticular system, and enters the hemocoel at the same time, infecting the hemocytes (3). In contrast to ODV, the BV particle consists of a single nucleocapsid surrounded by an envelope acquired as it buds from the plasma membrane of an infected cell and spreads beyond the midgut through the tracheae.Studies on antiviral immunity in insects are still in their infancy, and defense mechanisms at an early stage of viral infection in the alimentary canal remain unknown. The aim of the present study was to determine whether B. mori contains proteins showing anti-BmNPV activity in the gut in order to obtain a clue as to the antiviral mechanisms involved in insect immunity.A protein showing anti-BmNPV was purified through ammonium sulfate fractionation, gel filtration, and reverse-phase high-performance liquid-column chromatography (HPLC) (Fig. 1A). The protein was eluted with 49.5% acetonitrile-0.05% trifluoroacetic acid (TFA) by reverse-phase HPLC. The homogeneity of the antiviral peak fraction was examined both by matrix-as...
A protein showing strong antiviral activity against Bombyx mori nucleopolyhedrovirus (BmNPV) was purified from the digestive juice of B. mori larvae. The molecular mass of this protein was 24271 Da. Partial N-terminal amino acid sequence of the protein was determined and cDNA was cloned based on the amino acid sequence. A homology search of the deduced amino acid sequence of the cDNA showed 94% identity with B. mori serine protease so the protein was designated B. mori serine protease-2 (BmSP-2). Analysis of BmSP-2 gene expression showed that this gene is expressed in the midgut but not in other tissues. In addition, BmSP-2 gene was shown to not be expressed in the molting and wandering stages, indicating that the gene is hormonally regulated. Our results suggest that BmSP-2, an insect digestive enzyme, can be a potential antiviral factor against BmNPV at the initial site of viral infection.
Alkaline trypsin protein of molecular mass 25,436 Da purified from the digestive juice of Bombyx mori larvae indicated strong antiviral activity against Bombyx mori nucleopolyhedrovirus (BmNPV) under in vitro conditions. Partial N-terminal amino acid sequence of the protein was determined and the cDNA was cloned based on the amino acid sequence. A homology search of the deduced amino acid sequence of the cDNA showed 55% identity with Helicoverpa armigera trypsin and the active site of this protein was completely conserved. Hence, the protein was designated B. mori trypsin (Bmtryp). The results suggest that Bmtryp, an insect digestive enzyme, can be a potential antiviral factor against BmNPV at the initial site of viral infection.
Cecropins constitute one of the largest and most potent immune protein families found in insect species with diversified numbers and features. In view of the large number of cecropin proteins existing with much sequence variations among them, an overview of the multigene cecropin family in silkworm Bombyx mori was attempted in this study. Cecropin encodes an inducible 64 residue anti‐bacterial peptide and was clustered into two groups; first group viz. A and second group including B, D, E and Enbocin. Cecropin A consisted of two sub-groups located on chromosome number 6 of B.mori genome. Cecropin B consisted of six sub‐groups, cecropin D and E of one each and Enbocin of two. The second sub‐group formed in tandem array of multigene family locus over a length of 78.62 kb on chromosome number 26 in B.mori genome and was organized in positive as well as opposite orientation. The results indicated that cecropin B genes were organized in a close cluster with the intergenic sequence ranging from 1366 bp to 23526 bp. Interestingly a distantly related cecropin E was also located within the cecropin B multigene locus. Similarly distant members like cecropin D and Enbocin were also located in the 3’ region of cecropin B locus. The maximum intergenic region of 23526 bp observed between Cecropin D and Enbocin indicates that the two genes were distantly evolved. The phylogenetic analysis clearly indicates a positive correlation between the clusters and physical location on the chromosome, as the length of the intergenic region plays a major role to create newer cecropin families. EST database analysis suggests that most of the cecropin A members were expressed in the microbial fat body while, the cecropin B was equally expressed in fat body and other target tissues. The signal peptides were conserved in all the twelve paralogous gene sequences.
The molecular mechanism involved in BmNPV resistance was investigated using a genome wide microarray in midgut tissue of Indian silkworm Bombyx mori. In resistant race (Sarupat), 735 genes up-regulated and 589 genes down-regulated at 12 h post BmNPV infection. Similarly, in case of susceptible race (CSR-2), 2183 genes up-regulated and 2115 genes down-regulated. Among these, nine up-regulated and eight down-regulated genes were validated using real-time qPCR analysis. In Sarupat, vacuolar protein sorting associated, Xfin-like protein and carboxypeptidase E-like protein genes significantly up-regulated in infected midgut; prominently down-regulated genes were glutamate receptor ionotropic kainite 2-like, BTB/POZ domain and transferrin. Considerably up-regulated genes in the CSR-2 were peptidoglycan recognition protein S6 precursor and rapamycin while the conspicuous down-regulated genes were facilitated trehalose transporter and zinc transporter ZIP1-like gene. The up-regulation of genes in resistant race after BmNPV infection indicates their possible role in antiviral immune response.
One hundred and thirty seven isolates of Candida species were isolated from antibiotic associated diarrhoea cases and were examined to study the role of Candida in the pathogenesis of diarrhoea in infants. The quantitative estimation of yeast population by simple gram stain smear revealed more than 70% of the cases had 3+ score. The isolates further screened for detection of beta-lactamases. Among the isolated Candida sp, beta-lactamases was secreted by C. albicans, C. tropicalis, C. krusei and C. parapsilosis. Further, 46% of the Candida isolates were found to be produced 741-1110 mU/ml of beta-lactamases, suggesting that these enzyme would inactivate penicillin group of drugs and cause failure in the therapy directed against other diarrhoegenic bacteria.
The expression of metabolic enzyme genes and heat-shock protein genes (Hsp) during early embryogenesis in diapause and non-diapause eggs of the silkworm Bombyx mori was quantified by semi-quantitative RT-PCR. The trehalase gene (Tre) was expressed in non-diapause eggs up-to nine days, while in diapause eggs was not up regulated. The glycogen phosphorylase gene (GPase) was expressed in non-diapause eggs, whereas in diapause eggs a high level was observed in early stage, but down regulated in later stage. The phosphofructokinase gene (PFK) and sorbitol dehyrogenase-2 gene (SDH-2) expression was fluctuated in non-diapause eggs, whereas in diapause eggs these were expressed only at early stage and not observed in later stage. The glucose-6-phosphate dehydrogenase gene (G6P-DH) in non-diapause eggs was highly expressed during the differentiation phase and decreased in the organogenesis phase. In contrast to this, expression in diapause eggs was of low level during differentiation phase and of high level observed in the organogenesis phase. In the tissues, PFK and SDH-2 were selectively expressed in cuticle and midgut, whereas Tre expression was high in midgut and ovary of larvae incubated at 15 (20.4, 20.8, 40, 70, and 90) were expressed in both diapause and non-diapause eggs. Their expression was, however, selective in tissues with Hsp20.4 in midgut and ovary, Hsp40 in head, Hsp70 in cuticle and Hsp90 in ovary and head in high amounts at 15• C. These results suggest that the metabolic enzyme genes studied except Hsp play a major role during embryogenesis of diapause and non-diapause silkworm.
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