T. Ponnudurai scite author profile

The induction of transmission-blocking immunity as a potential tool in malaria control was first reported in 1976 by Gwadz (1) and Carter and Chen (2) for the avian malaria parasite Plasmodium gallinaceum. Subsequent reports confirmed that the immunogens were present on the surface of both male and female gametes (3, 4). Similar results were reported for a simian malaria parasite, P.knowlesi (5), and the murine P. yoelii (6). This work was extended to the midgut stages of P. gaUinaceum by Kaushal and coworkers (7-10). Since the introduction of the in vitro culture for P. falciparum (I 1), good progress has been made ill biochemistry and molecular biology of the asexual parasites. The sexual stages, however, demanded special culture conditions. The availability of gametocytes and gametes as well as the establishment of routine in vitro infection of mosquitoes (12) were basic for further studies on this human malarial parasite. In 1983 Rener et al. (13) demonstrated that monoclonal antibodies (mAb) 1 against P.falciparum gametes could interfere with the transmission of this parasite to mosquitoes.We here present results of experiments regarding the nature of antigens on the sexual stages of P. falciparum, and their involvement in the blocking of transmission by monoclonal and polyclonal antibodies. These antigens are sequentially expressed in gametocytes, on the surface of gametes, or on ookinetes.

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Infectivity of cultured Plasmodium falciparum gametocytes to mosquitoes

Ponnudurai

et al. 1989

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Various factors that may influence routine and high levels of mosquito infection with cultured Plasmodium falciparum gametocytes are considered in this paper. One of the most important is the choice of an appropriate isolate, with facilities for cryopreservation and a good technique for initiation of cultures. The use of automated culture systems with strict adherence to detail and routine has eliminated much of the variability. The quality of the serum used for the culture of gametocytes and inclusion in the feed material for mosquitoes is of the highest importance. Blood collection for culture purposes must preferably involve alcohol as an antiseptic for cleaning donor skin or suitable receptacles. Mosquito blood meals should not include plasma with citrate phosphate dextrose or sera collected in microtainer tubes or from volunteers on proguanil-chloroquine prophylaxis. Sera of individuals on chloroquine alone do not influence transmission. Haematocrits of from 5 to 10% permit the culture of equally infective gametocytes. It was impossible to predict the outcome of an infection in mosquitoes based on the number of female gametocytes or gametes. Within any experiment, the oocyst load initially increased, followed by a decline with progressively lower numbers of gametocytes accompanied by a progressive increase in the efficiency of transmission. Some of the variability of mosquito infection within an experiment was due to individual differences in the speed of blood digestion of the mosquitoes. A new membrane feeder is described with three different sizes to accommodate a variety of goals.(ABSTRACT TRUNCATED AT 250 WORDS)

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Synchronization of Plasmodium falciparum gametocytes using an automated suspension culture system

et al. 1986

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An automated suspension culture system for the cultivation of Plasmodium falciparum is described which retains a degree of flexibility which is absent in other automated culture apparatuses. Not only does this system of cultivation promote rapid multiplication of asexual parasites but also permits the development and maturation of gametocytes. Using a combination of gelatin flotation and N-acetyl glucosamine treatment synchronous development of gametocytes was achieved. The total time for gametocyte maturation in vitro under the conditions provided was 7 days. Stages II and V required 48 h for development whilst I, III and IV needed 24 h each. Mature microgametocytes were relatively long lived in comparison with macrogametocytes. Electron microscopic study of the synchronized stages confirmed the observations of Sinden (1982) but, in addition, we noted the presence of Garnham bodies, a cytostome in all stages and dense spherules in stages I-III similar to the fenestrated buttons in sporozoites and exoerythrocytic forms. The relationship between the number of osmiophilic bodies in the mature gametocytes and their ability to escape from the red cell is reaffirmed.

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Selection of Anopheles stephensi for refractoriness and susceptibility to Plasmodium falciparum

Feldmann¹,

Ponnudurai

1989

Medical Vet Entomology

127

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Variation in susceptibility of the vector Anopheles stephensi Liston to the human malaria parasite Plasmodium falciparum (Welch) was demonstrated using twelve strains of mosquitoes and one strain of parasites cultured in vitro. The Beech strain of An. stephensi exhibited greatest natural refractoriness, but with high intrapopulation variability. By selection for the required characteristic, two refractory lines of the Punjab strain and one highly susceptible line of the Sind strain were obtained. The median number of oocysts in the two refractory lines was less than 4% of that in the unselected line, whilst the highly susceptible line yielded about twice as many oocysts as the unselected line. Selection progressed more by keeping the descendants of individual females separate and selecting between them (individual selection) rather than pooling the progeny of all selected mosquitoes (mass selection). Using the former procedure many lines were lost due to inbreeding depression, but the outcome was more successful.

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Feeding behaviour and sporozoite ejection by infected Anopheles stephensi

Ponnudurai

Lensen

Gemert

et al. 1991

Transactions of the Royal Society of Tropical Medicine and Hygi

138

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Anopheles stephensi mosquitoes infected with Plasmodium falciparum sporozoites were allowed to feed individually through fresh whole thickness mouse skin. More sporozoites were ejected into the skin in clusters than into the blood. Deposition of sporozoites in the blood was an infrequent occurrence and always coincided with ejection of these stages into the skin--perhaps a spill-over effect. The number of probes before feeding (median 4.5) was not correlated with the sporozoite inoculum (median 8), nor was the number of sporozoites in the glands (median 14,500). However, the number of sporozoite clusters in the skin (median 1) was positively correlated with the inoculum size. The median value of the sporozoite inoculum was 22, when only those mosquitoes that ejected sporozoites were included. When feeding was interrupted and recommended on a new membrane, sporozoite ejection occurred with equal frequency on both occasions. Sporozoites disappeared from the site of bites in living mice within 2 h of feeding. The epidemiological significance of these observations is discussed.

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T. Ponnudurai

Sequential expression of antigens on sexual stages of Plasmodium falciparum accessible to transmission-blocking antibodies in the mosquito.

Infectivity of cultured Plasmodium falciparum gametocytes to mosquitoes

Synchronization of Plasmodium falciparum gametocytes using an automated suspension culture system

Selection of Anopheles stephensi for refractoriness and susceptibility to Plasmodium falciparum

Feeding behaviour and sporozoite ejection by infected Anopheles stephensi

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