Your search keyword '"Caputo GF"' showing total 4 results

1. Toxicity and mode of action of insecticidal Cry1A proteins from Bacillus thuringiensis in an insect cell line, CF-1.

Author

Portugal L, Gringorten JL, Caputo GF, Soberón M, Muñoz-Garay C, and Bravo A

Subjects

Animals, Bacillus thuringiensis Toxins, Blotting, Western, Cell Line, Larva drug effects, Manduca drug effects, Bacterial Proteins pharmacology, Endotoxins pharmacology, Hemolysin Proteins pharmacology, Insecta drug effects, Insecticides pharmacology

Abstract

Bacillus thuringiensis Cry toxins are insecticidal proteins used to control insect pests. The interaction of Cry toxins with the midgut of susceptible insects is a dynamic process involving activation of the toxin, binding to midgut receptors in the apical epithelium and conformational changes in the toxin molecule, leading to pore formation and cell lysis. An understanding of the molecular events underlying toxin mode of action is essential for the continued use of Cry toxins. In this work, we examined the mechanism of action of Cry1A toxins in the lepidopteran cell line CF-1, using native Cry1Ab and mutant forms of this protein that interfer with different steps in the mechanism of action, specifically, receptor binding, oligomerization or pore formation. These mutants lost activity against both Manduca sexta larvae and CF-1 cells. We also analyzed a mutation created in domain I of Cry1Ab, in which helix α-1 and part of helix α-2 were deleted (Cry1AbMod). Cry1AbMod is able to oligomerize in the absence of toxin receptors, and although it shows reduced activity against some susceptible insects, it kills insect pests that have developed resistance to native Cry1Ab. Cry1AbMod showed enhanced toxicity to CF-1, suggesting that oligomerization of native Cry1Ab may be a limiting step in its activity against CF-1 cells. The toxicity of Cry1Ac and Cry1AcMod were also analyzed. Our results suggest that some of the steps in the mode of action of Cry1A toxins are conserved in vivo in insect midgut cells and in vitro in an established cell line, CF-1., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2014

2. Insect cell lines and baculoviruses as effective biocontrol agents of forest pests.

Author

Caputo GF, Sohi SS, Hooey SV, and Gringorten LJ

Published

2011

3. Pathogenicity of Choristoneura fumiferana nucleopolyhedrovirus propagated in vitro at different incubation temperatures.

Author

Ebling PM, Caputo GF, and Cook BJ

Subjects

Animals, Cells, Cultured, Nucleopolyhedroviruses metabolism, Spodoptera physiology, Temperature, Nucleopolyhedroviruses pathogenicity, Spodoptera virology, Virus Cultivation methods

Abstract

To optimize the in vitro production of Choristoneura fumiferana nucleopolyhedrovirus (CfMNPV) as a potential microbial pest control agent, the pathogenicity of occlusion bodies (OBs) produced in two cell lines at three incubation temperatures was determined by bioassay. A plaque-purified isolate of CfMNPV was amplified in permissive C. fumiferana cell lines, FPMI-CF-203 and FPMI-CF-2C1, and incubated at 22, 24, and 28 degrees C. Occlusion bodies propagated in FPMI-CF-203 cells at 28 degrees C were significantly larger (17.5 microm(3)) and more pathogenic (LD(50) = 27; LD(95) = 185, where LD(50) and LD(95) are doses required to kill 50 and 95% of the test larvae, respectively) than those produced in either of the cell lines at any of the incubation temperatures tested. Increased temperatures yielded larger OBs from both cell lines. The pathogenicity of OBs propagated in the FPMI-CF-203 cell line increased with incubation temperature, whereas that of OBs produced in FPMI-CF-2C1 cells decreased. Comparison of the pathogenicity of OBs, whether naturally occurring or genetically modified, should be standardized by cell line and incubation temperature used for propagation. Production efficiency decreased with increasing incubation temperature for each cell line. Lower incubation temperatures used for propagation, and standardization of the titer of viral inoculum, should be further investigated to determine the economic feasibility of the in vitro production of CfMNPV as a microbial pest control agent.

Published

2003

4. CfMNPV blocks AcMNPV-induced apoptosis in a continuous midgut cell line.

Author

Palli SR, Caputo GF, Sohi SS, Brownwright AJ, Ladd TR, Cook BJ, Primavera M, Arif BM, and Retnakaran A

Subjects

Animals, Cell Line, DNA Fragmentation, DNA Replication, Inhibitor of Apoptosis Proteins, Moths cytology, Nucleopolyhedroviruses pathogenicity, Occlusion Body Matrix Proteins, Spodoptera cytology, Viral Proteins biosynthesis, Viral Structural Proteins, Virus Replication, Apoptosis, Nucleopolyhedroviruses physiology, Viral Interference

Abstract

Morphological and molecular changes produced by Autographa californica nuclear polyhedrosis virus (AcMNPV) infection in a permissive cell line, IPLB-SF-21AE (SF-21), of Spodoptera frugiperda and a nonpermissive cell line, FPMI-CF-203 (CF-203), of Choristoneura fumiferana are described. CF-203 cells inoculated with AcMNPV showed a DNA ladder and morphological changes such as plasma membrane granulation, blebbing, and nuclear fragmentation, which are characteristic of apoptosis. Typical virus replication and occlusion body (OB) production were seen in SF-21 cells inoculated with AcMNPV and no apoptosis-like symptoms were observed. mRNA for the apoptosis suppressor gene p35 was detected 9 hr later in AcMNPV-inoculated CF-203 cells than in SF-21 cells. Only a trace amount of mRNA for the AcMNPV-inhibitor of apoptosis homologue (Ac-iap) gene and no mRNAs for the late genes, AcMNPV-polyhedrin (Ac-polh) and AcMNPV-p10 (Ac-p10), were detected in AcMNPV-inoculated CF-203 cells. Inoculation of CF-203 cells with CfMNPV at least 12 hr prior to inoculation with AcMNPV prevented apoptosis-like cell death, and mRNAs for Ac-iap, Ac-polh, and Ac-p10 genes were expressed resulting in successful virus replication and OB production.

Published

1996