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Mosquito Midgut (mosquito + midgut)
Selected AbstractsMosquito midguts and malaria: cell biology, compartmentalization and immunologyPARASITE IMMUNOLOGY, Issue 4 2006M. M. A. WHITTEN SUMMARY The malaria parasite Plasmodium has an absolute requirement for both a vertebrate and a mosquito host in order to complete its life cycle, and its interactions with the latter provide the focus for this review. The mosquito midgut represents one of the most challenging environments for the survival and development of Plasmodium, and is thus also one of the most attractive sites for novel targeted malaria control strategies. During their attempts to cross the midgut epithelium en route to the salivary glands, motile ookinetes are swiftly detected and labelled by mosquito recognition factors and targeted for destruction by a variety of immune responses that recruit killing factors both from the midgut and from other tissues in the surrounding body cavity. The exact interplay between these factors and the parasite is highly species- and strain-specific, as are the timing and the route of parasite invasion. These features are paramount to determining the success of the infection and the vector competence of the mosquito. Here we discuss recent advances in genomic analyses, coupled with detailed microscopical investigations, which are helping to unravel the identity and roles of the major players of these complex systems. [source] Storage and secretion of the peritrophic matrix protein Ag-Aper1 and trypsin in the midgut of Anopheles gambiaeINSECT MOLECULAR BIOLOGY, Issue 4 2004M. Devenport Abstract The gene Ag-Aper1 encodes a peritrophic matrix (PM) protein from the mosquito Anopheles gambiae. Ag-Aper1 gene expression and protein localization in the mosquito midgut were studied during the course of a blood meal. Ag-Aper1 mRNA abundance does not change appreciably during the course of blood ingestion and digestion. Prior to a blood meal, the protein is stored in secretory vesicles of midgut epithelial cells. Moreover, Ag-Aper1 colocalizes to the same secretory vesicles as trypsin, indicating that these proteins use a common secretory pathway. Blood feeding triggers the secretion of vesicle contents into the midgut lumen, after which Ag-Aper1 is incorporated into the PM. Newly synthesized Ag-Aper1 protein was again detected within the midgut epithelial cells at 60 h after blood ingestion. [source] Functional characterization of PGRP-LC1 of Anopheles gambiae through deletion and RNA interferenceINSECT SCIENCE, Issue 6 2009Yang Chen Abstract, Peptidoglycan recognition proteins (PGRP) play an important role in innate immunity in insects through the activation of the Imd pathway, which has been shown to be required in the antibacterial response in insects and in the limitation of the number of Plasmodium berghei oocysts developing in mosquito midgut. The LC1 gene of the PRGP family in Anopheles gambiae produces many products through alternative splicing. In this work, we demonstrate that PGRP-LC1a alone is sufficient to activate the Imd pathway in the A. gambiae L3,5 cell line through a combination of terminal or internal deletions, and RNA interference against endogenous PGRP-LC products. In the absence of endogenous PGRP-LC proteins, the integrity of the cytoplasmic domain is necessary for LC1a function, while that of the extracellular domain is not. Moreover, the shorter the extracellular domain, the higher the activity for LC1a. However, the removal of either the cytoplasmic or the extracellular PGRP-binding domain has little impact on the activity of LC1a in the presence of endogenous PGRP-LC proteins. [source] Disruption of a Plasmodium falciparum cyclic nucleotide phosphodiesterase gene causes aberrant gametogenesisMOLECULAR MICROBIOLOGY, Issue 1 2008Cathy J. Taylor Summary Phosphodiesterase (PDE) and guanylyl cyclase (GC) enzymes are key components of the cGMP signalling pathway and are encoded in the genome of Plasmodium falciparum. Here we investigate the role of specific GC and PDE isoforms in gamete formation , a process that is essential for malaria transmission and occurs in the Anopheles mosquito midgut following feeding on an infected individual. Details of the intracellular signalling events controlling development of the male and female gametes from their precursors (gametocytes) remain sparse in P. falciparum. Previous work involving the addition of pharmacological agents to gametocytes implicated cGMP in exflagellation , the emergence of highly motile, flagellated male gametes from the host red blood cell. In this study we show that decreased GC activity in parasites having undergone disruption of the PfGC, gene had no significant effect on gametogenesis. By contrast, decreased cGMP-PDE activity during gametocyte development owing to disruption of the PfPDE, gene, led to a severely reduced ability to undergo gametogenesis. This suggests that the concentration of cGMP must be maintained below a threshold in the developing gametocyte to allow subsequent differentiation to proceed normally. The data indicate that PfPDE, plays a crucial role in regulating cGMP levels during sexual development. [source] | ||||||||||