Laura Perez scite author profile

Background Little is known about how bacterial endosymbionts colonize host tissues. Because many insect endosymbionts are maternally transmitted, egg colonization is critical for endosymbiont success. Wolbachia bacteria, carried by approximately half of all insect species, provide an excellent model for characterizing endosymbiont infection dynamics. To date, technical limitations have precluded stepwise analysis of germline colonization by Wolbachia. It is not clear to what extent titer-altering effects are primarily mediated by growth rates of Wolbachia within cell lineages or migration of Wolbachia between cells. Results The objective of this work is to inform mechanisms of germline colonization through use of optimized methodology. The approaches are framed in terms of nutritional impacts on Wolbachia . Yeast-rich diets in particular have been shown to suppress Wolbachia titer in the Drosophila melanogaster germline. To determine the extent of Wolbachia sensitivity to diet, we optimized 3-dimensional, multi-stage quantification of Wolbachia titer in maternal germline cells. Technical and statistical validation confirmed the identity of Wolbachia in vivo , the reproducibility of Wolbachia quantification and the statistical power to detect these effects. The data from adult feeding experiments demonstrated that germline Wolbachia titer is distinctly sensitive to yeast-rich host diets in late oogenesis. To investigate the physiological basis for these nutritional impacts, we optimized methodology for absolute Wolbachia quantification by real-time qPCR. We found that yeast-rich diets exerted no significant effect on bodywide Wolbachia titer, although ovarian titers were significantly reduced. This suggests that host diets affects Wolbachia distribution between the soma and late stage germline cells. Notably, relative qPCR methods distorted apparent wsp abundance, due to altered host DNA copy number in yeast-rich conditions. This highlights the importance of absolute quantification data for testing mechanistic hypotheses. Conclusions We demonstrate that absolute quantification of Wolbachia, using well-controlled cytological and qPCR-based methods, creates new opportunities to determine how bacterial abundance within the germline relates to bacterial distribution within the body. This methodology can be applied to further test germline infection dynamics in response to chemical treatments, genetic conditions, new host/endosymbiont combinations, or potentially ada...

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Malaria transmission assisted by interaction betweenPlasmodium α-tubulin-1 andAnophelesFREP1 protein

Zhang

Niu

Perez

et al. 2019

Preprint

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Passage of Plasmodium through a mosquito midgut is essential for malaria transmission. FREP1, a peritrophic matrix protein in a mosquito midgut, binds to the parasite and mediates Plasmodium infection in Anopheles. The FREP1-mediated Plasmodium invasion pathway is highly conserved across multiple species of Plasmodium and Anopheles. Through pulldown, nine P. berghei proteins were co-precipitated with FREP1-conjugated beads. After cloning these nine genes from P. berghei and expressing them in insect cells, six of them were confirmed to interact with recombinant FREP1 protein. Among them, α-tubulin-1 and heat shock protein 70 (Hsp70) were highly conserved in Plasmodium species with >95% identity. Thus, P. falciparum α-tubulin-1 and Hsp70 were cloned and expressed in E. coli to stimulate antibody (Ab) in mice. Our results showed that anti-serum against P. falciparum α-tubulin-1 significantly inhibited P. falciparum transmission to An. gambiae, while Ab against P. falciparum Hsp70 serum did not. The polyclonal Ab against human α-tubulin did not interfere formation of ookinetes, however, significantly reduced the number of P. falciparum oocysts in An. gambiae midguts. Moreover, fluorescence microscope assays showed that anti-α-tubulin Ab bound to impermeable Plasmodium ookinete apical invasive apparatus. Therefore, we propose that the interaction between Anopheles FREP1 protein and Plasmodium α-tubulin-1 directs the ookinete invasive apparatus towards midgut peritrophic matrix for the efficient passage of the parasite. Anopheles FREP1 and Plasmodium α-tubulin-1 are potential targets for blocking malaria transmission to the mosquito host.AUTHOR SUMMARYThe molecular mechanisms of malaria transmission to mosquito are not well-understood. FREP1 proteins in mosquito midget PM has been proved to mediate malaria transmission by binding to parasite ookinetes. Here we reported that Plasmodium parasite α-tubulin-1 is an FREP1 binding partner. We initially identified the α-tubulin-1 through the FREP1-pulldown assay; Then we cloned P. falciparum α-tubulin-1, and demonstrated that the insect cell expressed recombinant Plasmodium α-tubulin-1 bound to FREP1 in vitro; Next, mouse anti-serum against P. falciparum α-tubulin-1 was found to inhibit P. falciparum transmission to An. gambiae. P. falciparum α-tubulin-1 shares >84% identical amino acid sequence with human α-tubulin, purified Ab against human α-tubulin significantly inhibited malaria transmission. Anti-human α-tubulin Ab did not interfere the gametocyte-to-ookinetes conversion. Final, we found that anti-α-tubulin Ab bound to the apical end of impermeable ookinetes. Structurally, ookinete invasive apparatus locates at the apical opening. Therefore, we propose that the interaction between Anopheles midgut FREP1 protein and Plasmodium apical α-tubulin-1 directs the ookinete invasive apparatus towards midgut PM for the efficient parasite invasion.

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Novel inhibitors of Plasmodium Falciparum dUTPase provide a platform for anti-malarial drug design

Whittingham¹,

Leal²,

Kasinathan³

et al. 2005

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Malaria Transmission Assisted by Interaction between <i>Plasmodium α-Tubulin-I and Anopheles FREP1 Protein</i>

et al. 2020

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Laura Perez

Quantitative methods for assessing local and bodywide contributions to Wolbachia titer in maternal germline cells of Drosophila

Malaria transmission assisted by interaction betweenPlasmodium α-tubulin-1 andAnophelesFREP1 protein

Novel inhibitors of Plasmodium Falciparum dUTPase provide a platform for anti-malarial drug design

Malaria Transmission Assisted by Interaction between <i>Plasmodium α-Tubulin-I and Anopheles FREP1 Protein</i>

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