Modo de ação do biolarvicida Lysinibacillus sphaericus: identificação do epitopo da toxina Binária no receptor Cqm1 e base molecular da seletividade / Mode of action of biolarvicide Lysinibacillus sphaericus: identification of the epitope of the CQM1 Binary toxin receptor and molecular basis of selectivity

A toxina Binária (Bin) é o principal fator tóxico da bactéria entomopatógena Lysinibacillus sphaericus e sua ação em Culex quinquefasciatus depende da ligação com receptores no intestino das larvas. Os receptores são as a-glicosidases Cqm1, localizadas no epitélio, ligadas por uma âncora de glicosil-fosfatidilinositol. Larvas de Aedes aegypti são refratárias à toxina, pois, não apresentam receptores funcionais, apesar de apresentarem um gene que codifica a proteína Aam1, com alta similaridade à Cqm1. Devido às lacunas a respeito do espectro de ação da toxina Bin, o objetivo deste estudo foi identificar epitopos de ligação da toxina no receptor Cqm1 e determinar a base molecular da sua ação para estas espécies de vetores. Os resultados obtidos a partir da análise comparativa das proteínas Cqm1 e Aam1 levaram à identificação de um epitopo da toxina Bin no receptor Cqm1, situado uma alça na região N-terminal S129-A312. Este epitopo é composto pelos aminoácidos 155PATGGG160, não conservados em Aam1 (158AETGKL163), e os resíduos 159GG160 são críticos para a ligação com a Bin...

The Bin toxin is the main toxic factor of the bacterium Lysinibacillus sphaericuswhose action in Culex quinquefasciatuslarvae depends on its binding to the midgut epithelial receptors...

Lipopolysaccharide-induced expression of cell surface receptors and cell activation of neutrophils and monocytes in whole human blood

Lipopolysaccharide (LPS) activates neutrophils and monocytes, inducing a wide array of biological activities. LPS rough (R) and smooth (S) forms signal through Toll-like receptor 4 (TLR4), but differ in their requirement for CD14. Since the R-form LPS can interact with TLR4 independent of CD14 and the differential expression of CD14 on neutrophils and monocytes, we used the S-form LPS from Salmonella abortus equi and the R-form LPS from Salmonella minnesota mutants to evaluate LPS-induced activation of human neutrophils and monocytes in whole blood from healthy volunteers. Expression of cell surface receptors and reactive oxygen species (ROS) and nitric oxide (NO) generation were measured by flow cytometry in whole blood monocytes and neutrophils. The oxidative burst was quantified by measuring the oxidation of 2',7'-dichlorofluorescein diacetate and the NO production was quantified by measuring the oxidation of 4-amino-5-methylamino-2',7'-difluorofluorescein diacetate. A small increase of TLR4 expression by monocytes was observed after 6 h of LPS stimulation. Monocyte CD14 modulation by LPS was biphasic, with an initial 30 percent increase followed by a 40 percent decrease in expression after 6 h of incubation. Expression of CD11b was rapidly up-regulated, doubling after 5 min on monocytes, while down-regulation of CXCR2 was observed on neutrophils, reaching a 50 percent reduction after 6 h. LPS induced low production of ROS and NO. This study shows a complex LPS-induced cell surface receptor modulation on human monocytes and neutrophils, with up- and down-regulation depending on the receptor. R- and S-form LPS activate human neutrophils similarly, despite the low CD14 expression, if the stimulation occurs in whole blood.