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Your search keyword '"Ambudkar, Suresh V."' showing total 27 results
Start Over Author "Ambudkar, Suresh V." Journal journal of biological chemistry
27 results on '"Ambudkar, Suresh V."'

3. Correction: Residues forming the gating regions of asymmetric multidrug transporter Pdr5 also play roles in conformational switching and protein folding

Author

Alhumaidi, Maryam, primary, Nentwig, Lea-Marie, additional, Rahman, Hadiar, additional, Schmitt, Lutz, additional, Rudrow, Andrew, additional, Harris, Andrzej, additional, Dillon, Cierra, additional, Restrepo, Lucas, additional, Lamping, Erwin, additional, Arya, Nidhi, additional, Ambudkar, Suresh V., additional, Choy, John S., additional, and Golin, John, additional

Published
2023
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4. Residues forming the gating regions of asymmetric multidrug transporter Pdr5 also play roles in conformational switching and protein folding

Author

Alhumaidi, Maryam, primary, Nentwig, Lea-Marie, additional, Rahman, Hadiar, additional, Schmitt, Lutz, additional, Rudrow, Andrew, additional, Harris, Andrzej, additional, Dillon, Cierra, additional, Restrepo, Lucas, additional, Lamping, Erwin, additional, Arya, Nidhi, additional, Ambudkar, Suresh V., additional, Choy, John S., additional, and Golin, John, additional

Published
2022
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6. Structures of the Multidrug Transporter P-glycoprotein Reveal Asymmetric ATP Binding and the Mechanism of Polyspecificity

Author

Esser, Lothar, primary, Zhou, Fei, additional, Pluchino, Kristen M., additional, Shiloach, Joseph, additional, Ma, Jichun, additional, Tang, Wai-kwan, additional, Gutierrez, Camilo, additional, Zhang, Alex, additional, Shukla, Suneet, additional, Madigan, James P., additional, Zhou, Tongqing, additional, Kwong, Peter D., additional, Ambudkar, Suresh V., additional, Gottesman, Michael M., additional, and Xia, Di, additional

Published
2017
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11. Ceramide Glycosylation by Glucosylceramide Synthase Selectively Maintains the Properties of Breast Cancer Stem Cells

Author

Gupta, Vineet, primary, Bhinge, Kaustubh N., additional, Hosain, Salman B., additional, Xiong, Katherine, additional, Gu, Xin, additional, Shi, Runhua, additional, Ho, Ming-Yi, additional, Khoo, Kay-Hooi, additional, Li, Su-Chen, additional, Li, Yu-Teh, additional, Ambudkar, Suresh V., additional, Jazwinski, S.Michal, additional, and Liu, Yong-Yu, additional

Published
2012
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26. Transport Activity and Surface Expression of the Na+-Ca2+Exchanger NCX1 Are Inhibited by the Immunosuppressive Agent Cyclosporin A and by the Nonimmunosuppressive Agent PSC833*

Author

Kimchi-Sarfaty, Chava, Kasir, Judith, Ambudkar, Suresh V., and Rahamimoff, Hannah

Abstract

Cyclosporin A (CsA) treatment of HEK 293 cells expressing the rat heart RHE-1 (NCX1.1, EMBL accession number X68191) or the rat brain RBE-2 (NCX1.5, GenBankTMaccession numberX68813) Na+-Ca2+exchanger inhibited their transport activity in a concentration-dependent manner. The inhibition was detectable at 2 μmCsA, and exposure of the cells to 20 μmCsA resulted in a decrease of the Na+-dependent Ca2+uptake to about 20% relative to that of untreated cells. Determination of the surface expression of the exchanger protein revealed a parallel concentration-dependent reduction in the amount of the immunoreactive protein. No reduction was detected in the amount of total immunoreactive exchanger protein in CsA-treated cells relative to untreated ones. Among the different drugs tested, only PSC833, an analog of cyclosporin D, mimicked the effects of CsA. Exposure of the transfected cells to the chemically related cyclosporin D and macrolide drugs (FK506 or rapamycin) had no effect on the transport activity or the surface expression of the Na+-Ca2+exchanger. Co-expression of the human multidrug transporter P-glycoprotein (of which both drugs are modulators) with the cloned Na+-Ca2+exchanger revealed that transport activity and surface expression of each transporter in the co-transfected system were similar to those of each transporter alone in both the presence and absence of CsA or PSC833. CsA and PSC833 inhibited the surface expression of the NCX1 protein but did not alter the surface expression of P-glycoprotein. Unlike some P-glycoprotein endoplasmic reticulum-retained mutants (Loo, T. W., and Clarke, D. M. (1997) J. Biol. Chem. 272, 709–712), CsA did not rescue RBE-2/F913→Stop, an endoplasmic reticulum-retained function-competent mutant of the Na+-Ca2+exchanger (Kasir, J., Ren, X., Furman, I., and Rahamimoff, H. (1999)J. Biol. Chem. 274, 24873–24880) and did not induce its kinesis to the surface membrane, further demonstrating molecular differences between P-glycoprotein and NCX1 mutants for interaction with CsA.

Published
2002
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27. Mutations in Intracellular Loops 1 and 3 Lead toMisfolding of Human P-glycoprotein (ABCB1) That Can Be Rescued by Cyclosporine A, Which Reduces Its Association with Chaperone Hsp70.

Author

Kapoor, Khyati, Bhatnagar, Jaya, Chufan, Eduardo E., and Ambudkar, Suresh V.

Subjects
*P-glycoprotein, *ADENOSINE triphosphate, *ANTINEOPLASTIC agents, *MEMBRANE proteins, *ENDOPLASMIC reticulum, *IMMUNOPHILINS, *CELL membranes, *CYCLOSPORINE
Abstract

P-glycoprotein (P-gp) is an ATP binding cassette transporter that effluxes a variety of structurally diverse compounds including anticancer drugs. Computational models of human P-gp in the apo- and nucleotide-bound conformation show that the adenine group of ATP forms hydrogen bonds with the conserved Asp-164 and Asp-805 in intracellular loops 1 and 3, respectively, which are located at the interface between the nucleotide binding domains and transmembrane domains.We investigated the role ofAsp-164 and Asp-805 residues by substituting them with cysteine in a cysteine-less background. It was observed that the D164C/D805C mutant, when expressed in HeLa cells, led to misprocessing of P-gp, which thus failed to transport the drug substrates. The misfolded protein could be rescued to the cell surface by growing the cells at a lower temperature (27 °C) or by treatmentwith substrates (cyclosporine A, FK506),modulators (tariquidar), or small corrector molecules. We also show that short term (4-6 h) treatment with15McyclosporineAor FK506 rescues the pre-formed immature protein trapped in the endoplasmic reticulumin an immunophilin-independent pathway. The intracellularly trapped misprocessed protein associates more with chaperone Hsp70, and the treatment with cyclosporine A reduces the association of mutant P-gp, thus allowing it to be trafficked to the cell surface. The function of rescued cell surface mutant P-gp is similar to that of wild-type protein. These data demonstrate that the Asp-164 and Asp-805 residues are not important for ATP binding, as proposed earlier, but are critical for proper folding andmaturation of a functional transporter. [ABSTRACT FROM AUTHOR]

Published
2013
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