Govind B. Modi

Evolution of Lesion Formation, Parasitic Load, Immune Response, and Reservoir Potential in C57BL/6 Mice following High- and Low-Dose Challenge with Leishmania major

ABSTRACT A model of cutaneous leishmaniasis using 102Leishmania major metacyclic promastigotes inoculated into the footpads of genetically resistant C57BL/6 mice was studied in order to more accurately reproduce the evolution of lesion formation and the kinetics of parasite growth and immune response as they might occur in naturally exposed reservoirs and in human hosts. In contrast to the more conventional experimental model employing 106metacyclic promastigotes, in which the rapid development of footpad lesions was associated with an increasing number of amastigotes in the site, the low-dose model revealed a remarkably “silent” phase of parasite growth, lasting approximately 6 weeks, during which peak parasitic loads were established in the absence of any overt pathology. Footpad swelling was observed after 6 weeks, coincident with the onset of parasite clearance and with production of high levels of interleukin-12 (IL-12) and gamma interferon (IFN-γ) in draining lymph nodes. Low-dose challenge of IL-12- and IFN-γ-depleted or -deficient mice provided strong evidence that the induction or expression of cellular immunity is essentially absent during the first 6 to 8 weeks of intracellular growth, since the concentration of amastigotes in the site was not enhanced compared to that for wild-type animals during this time. By monitoring the ability of infected mice to transmit parasites to vector sand flies, it was observed that following low-dose challenge, footpads without apparent lesions provided an efficient source of parasites for exposed flies and that the low-dose challenge actually extended the duration of parasite transmissibility during the course of infection.

Salivary apyrase activity of some old world phlebotomine sand flies

Abstract Salivary gland homogenates of three Old World phlebotomine sand flies ( Phlebotomus papatasi, P. argentipes and P. perniciosus ) contained abundant ATPase and ADPase activities, indicating the presence of an apyrase activity. These activities had an optimum pH around 8.0 and were activated by Ca 2+ but not Mg 2+ . Both hydrolytic activities and salivary protein content were significantly reduced after the female sand fly took a blood meal indicating a secretory fate for the enzymic activities and salivary gland contents during the feeding process. In contrast to the above mentioned species, the salivary apyrase activity of P. colabaensis is much less abundant. Salivary gland homogenates of P. papatasi, P. argentipes and P. perniciosus inhibited ADP-induced platelet aggregation of citrated rabbit platelet rich plasma. It is suggested that salivary apyrase activity, as in some other blood-sucking arthropods, helps the blood-feeding process by preventing host platelet aggregation.