Transport of inorganic phosphate in Leishmania infantum and compensatory regulation at low inorganic phosphate concentration.

Biochimica et biophysica acta Pub Date : 2013-03-01
T Russo-Abrahão, M Alves-Bezerra, D Majerowicz, A L Freitas-Mesquita, C F Dick, K C Gondim, J R Meyer-Fernandes
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Abstract

Background: Proliferation of Leishmania infantum depends on exogenous inorganic phosphate (P(i)) but little is known about energy metabolism and transport of P(i) across the plasma membrane in Leishmania sp.

Methods: We investigated the kinetics of 32P(i) transport, the influence of H+ and K+ ionophores and inhibitors, and expression of the genes for the Na+:P(i) and H+:P(i) cotransporters.

Results: The proton ionophore FCCP, bafilomycin A1 (vacuolar ATPase inhibitor), nigericin (K+ ionophore) and SCH28080 (an inhibitor of H+, K(+)-ATPase) all inhibited the transport of P(i). This transport showed Michaelis-Menten kinetics with K0.5 and V(max) values of 0.016 +/- 0.002 mM and 564.9 +/- 18.06 pmol x h(-1) x 10(-7) cells, respectively. These values classify the P(i) transporter of L. infantum among the high-affinity transporters, a group that includes Pho84 of Saccharomyces cerevisiae. Two sequences were identified in the L. infantum genome that code for phosphate transporters. However, transcription of the PHO84 transporter was 10-fold higher than the PHO89 transporter in this parasite. Accordingly, P(i) transport and LiPho84 gene expression were modulated by environmental P(i) variations.

Conclusions: These findings confirm the presence of a P(i) transporter in L. infantum, similar to PHO84 in S. cerevisiae, that contributes to the acquisition of inorganic phosphate and could be involved in growth and survival of the promastigote forms of L. infantum.

General significance: This work provides the first description of a PHO84-like P(i) transporter in a Trypanosomatide parasite of the genus Leishmania, responsible for many infections worldwide.

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幼利什曼原虫体内无机磷酸盐的转运及低无机磷酸盐浓度下的代偿调节。
背景:婴儿利什曼原虫的增殖依赖于外源性无机磷酸盐(P(i)),但对利什曼原虫的能量代谢和P(i)在质膜上的转运知之甚少。方法:研究了32P(i)转运的动力学,H+和K+离子载体和抑制剂的影响,以及Na+:P(i)和H+:P(i)共转运体基因的表达。结果:质子离子载体FCCP、巴菲霉素A1(空泡型atp酶抑制剂)、尼日利亚菌素(K+离子载体)和SCH28080 (H+、K(+)- atp酶抑制剂)均能抑制P(i)的转运。该转运具有Michaelis-Menten动力学,K0.5和V(最大)值分别为0.016 +/- 0.002 mM和564.9 +/- 18.06 pmol × h(-1) × 10(-7)个细胞。这些值将婴儿乳杆菌的P(i)转运蛋白归类为高亲和转运蛋白,其中包括酿酒酵母的Pho84。在婴儿乳杆菌基因组中鉴定出两个编码磷酸转运蛋白的序列。然而,PHO84转运体的转录比PHO89转运体高10倍。因此,P(i)的转运和LiPho84基因的表达受到环境P(i)变异的调节。结论:这些发现证实了婴儿乳杆菌中存在一种P(i)转运蛋白,类似于葡萄球菌中的PHO84,该转运蛋白有助于无机磷酸盐的获取,并可能参与婴儿乳杆菌promastigote形式的生长和存活。一般意义:这项工作首次描述了利什曼属锥虫寄生虫中pho84样P(i)转运体,该寄生虫在世界范围内引起许多感染。
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Temperature dependence of diffusion in model and live cell membranes characterized by imaging fluorescence correlation spectroscopy. Searching for a successful HDL-based treatment strategy. Identification of cis-regulatory variations in the IL6R gene through the inheritance assessment of allelic transcription. CD1d favors MHC neighborhood, GM1 ganglioside proximity and low detergent sensitive membrane regions on the surface of B lymphocytes. Retraction notice to "Transcriptional regulation of the AT1 receptor gene in immortalized human trophoblast cells."[Biochim. Biophys. Acta 1680 (2004) 158-170].
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