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疟原虫动合子表面的P25和P28蛋白具有多种且部分冗余的功能。

P25 and P28 proteins of the malaria ookinete surface have multiple and partially redundant functions.

作者信息

Tomas A M, Margos G, Dimopoulos G, van Lin L H, de Koning-Ward T F, Sinha R, Lupetti P, Beetsma A L, Rodriguez M C, Karras M, Hager A, Mendoza J, Butcher G A, Kafatos F, Janse C J, Waters A P, Sinden R E

机构信息

Leiden University Medical Centre, Laboratory of Parasitology, PO Box 9605, 2300 RC Leiden, The Netherlands.

出版信息

EMBO J. 2001 Aug 1;20(15):3975-83. doi: 10.1093/emboj/20.15.3975.

DOI:10.1093/emboj/20.15.3975
PMID:11483501
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC149139/
Abstract

The ookinete surface proteins (P25 and P28) are proven antimalarial transmission-blocking vaccine targets, yet their biological functions are unknown. By using single (Sko) and double gene knock-out (Dko) Plasmodium berghei parasites, we show that P25 and P28 share multiple functions during ookinete/oocyst development. In the midgut of mosquitoes, the formation of ookinetes lacking both proteins (Dko parasites) is significantly inhibited due to decreased protection against lethal factors, including protease attack. In addition, Dko ookinetes have a much reduced capacity to traverse the midgut epithelium and to transform into the oocyst stage. P25 and P28 are partially redundant in these functions, since the efficiency of ookinete/oocyst development is only mildly compromised in parasites lacking either P25 or P28 (Sko parasites) compared with that of Dko parasites. The fact that Sko parasites are efficiently transmitted by the mosquito is a compelling reason for including both target antigens in transmission-blocking vaccines.

摘要

动合子表面蛋白(P25和P28)已被证实是抗疟疾传播阻断疫苗的靶点,但其生物学功能尚不清楚。通过使用单基因敲除(Sko)和双基因敲除(Dko)的伯氏疟原虫寄生虫,我们发现P25和P28在动合子/卵囊发育过程中具有多种功能。在蚊子的中肠中,缺乏这两种蛋白的动合子(Dko寄生虫)的形成受到显著抑制,这是由于对包括蛋白酶攻击在内的致死因素的保护作用降低。此外,Dko动合子穿过中肠上皮并转化为卵囊阶段的能力大大降低。P25和P28在这些功能上部分冗余,因为与Dko寄生虫相比,缺乏P25或P28的寄生虫(Sko寄生虫)中动合子/卵囊发育的效率仅略有受损。Sko寄生虫能被蚊子有效传播这一事实是在传播阻断疫苗中纳入这两种靶抗原的一个令人信服的理由。

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