Author: Khan, Nabab; Halcrow, Peter W.; Lakpa, Koffi L.; Afghah, Zahra; Miller, Nicole M.; Dowdy, Steven F.; Geiger, Jonathan D.; Chen, Xuesong
Title: Twoâ€pore channels regulate Tat endolysosome escape and Tatâ€mediated HIVâ€1 LTR transactivation Cord-id: gnjuq3b1 Document date: 2020_1_16
ID: gnjuq3b1
Snippet: HIVâ€1 Tat is essential for HIVâ€1 replication and appears to play an important role in the pathogenesis of HIVâ€associated neurological complications. Secreted from infected or transfected cells, Tat has the extraordinary ability to cross the plasma membrane. In the brain, Tat can be taken up by CNS cells via receptorâ€mediated endocytosis. Following endocytosis and its internalization into endolysosomes, Tat must be released in order for it to activate the HIVâ€1 LTR promoter and facilita
Document: HIVâ€1 Tat is essential for HIVâ€1 replication and appears to play an important role in the pathogenesis of HIVâ€associated neurological complications. Secreted from infected or transfected cells, Tat has the extraordinary ability to cross the plasma membrane. In the brain, Tat can be taken up by CNS cells via receptorâ€mediated endocytosis. Following endocytosis and its internalization into endolysosomes, Tat must be released in order for it to activate the HIVâ€1 LTR promoter and facilitate HIVâ€1 viral replication in the nucleus. However, the underlying mechanisms whereby Tat escapes endolysosomes remain unclear. Because Tat disrupts intracellular calcium homeostasis, we investigated the involvement of calcium in Tat endolysosome escape and subsequent LTR transactivation. We demonstrated that chelating endolysosome calcium with highâ€affinity rhodamineâ€dextran or chelating cytosolic calcium with BAPTAâ€AM attenuated Tat endolysosome escape and LTR transactivation. Significantly, we demonstrated that pharmacologically blocking and knocking down the endolysosomeâ€resident twoâ€pore channels (TPCs) attenuated Tat endolysosome escape and LTR transactivation. This calciumâ€mediated effect appears to be selective for TPCs because knocking down TRPML1 calcium channels was without effect. Our findings suggest that calcium released from TPCs is involved in Tat endolysosome escape and subsequent LTR transactivation. TPCs might represent a novel therapeutic target against HIVâ€1 infection and HIVâ€associated neurological complications.
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