LEDGF 1-326 decreases P23H and wild type rhodopsin aggregates and P23H rhodopsin mediated cell damage in human retinal pigment epithelial cells

Rinku Baid, Robert I. Scheinman, Toshimichi Shinohara, Dhirendra P. Singh, Uday B. Kompella

Research output: Contribution to journalArticle

4 Citations (Scopus)

Abstract

Background: P23H rhodopsin, a mutant rhodopsin, is known to aggregate and cause retinal degeneration. However, its effects on retinal pigment epithelial (RPE) cells are unknown. The purpose of this study was to determine the effect of P23H rhodopsin in RPE cells and further assess whether LEDGF 1-326, a protein devoid of heat shock elements of LEDGF, a cell survival factor, reduces P23H rhodopsin aggregates and any associated cellular damage. Methods: ARPE-19 cells were transiently transfected/cotransfected with pLEDGF 1-326 and/or pWT-Rho (wild type)/pP23H-Rho. Rhodopsin mediated cellular damage and rescue by LEDGF 1-326 was assessed using cell viability, cell proliferation, and confocal microscopy assays. Rhodopsin monomers, oligomers, and their reduction in the presence of LEDGF 1-326 were quantified by western blot analysis. P23H rhodopsin mRNA levels in the presence and absence of LEDGF 1-326 was determined by real time quantitative PCR. Principal Findings: P23H rhodopsin reduced RPE cell viability and cell proliferation in a dose dependent manner, and disrupted the nuclear material. LEDGF 1-326 did not alter P23H rhodopsin mRNA levels, reduced its oligomers, and significantly increased RPE cell viability as well as proliferation, while reducing nuclear damage. WT rhodopsin formed oligomers, although to a smaller extent than P23H rhodopsin. Further, LEDGF 1-326 decreased WT rhodopsin aggregates. Conclusions: P23H rhodopsin as well as WT rhodopsin form aggregates in RPE cells and LEDGF 1-326 decreases these aggregates. Further, LEDGF 1-326 reduces the RPE cell damage caused by P23H rhodopsin. LEDGF 1-326 might be useful in treating cellular damage associated with protein aggregation diseases such as retinitis pigmentosa.

Original languageEnglish (US)
Article numbere24616
JournalPloS one
Volume6
Issue number9
DOIs
StatePublished - Sep 13 2011

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rhodopsin
Retinal Pigments
Rhodopsin
cell aggregates
epithelial cells
Epithelial Cells
pigments
Cells
cells
cell viability
Cell Survival
Cell proliferation
Oligomers
Cell Proliferation
lens epithelium-derived growth factor
cell proliferation
Retinal Degeneration
Messenger RNA
Retinitis Pigmentosa
Confocal microscopy

ASJC Scopus subject areas

  • Biochemistry, Genetics and Molecular Biology(all)
  • Agricultural and Biological Sciences(all)
  • General

Cite this

LEDGF 1-326 decreases P23H and wild type rhodopsin aggregates and P23H rhodopsin mediated cell damage in human retinal pigment epithelial cells. / Baid, Rinku; Scheinman, Robert I.; Shinohara, Toshimichi; Singh, Dhirendra P.; Kompella, Uday B.

In: PloS one, Vol. 6, No. 9, e24616, 13.09.2011.

Research output: Contribution to journalArticle

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abstract = "Background: P23H rhodopsin, a mutant rhodopsin, is known to aggregate and cause retinal degeneration. However, its effects on retinal pigment epithelial (RPE) cells are unknown. The purpose of this study was to determine the effect of P23H rhodopsin in RPE cells and further assess whether LEDGF 1-326, a protein devoid of heat shock elements of LEDGF, a cell survival factor, reduces P23H rhodopsin aggregates and any associated cellular damage. Methods: ARPE-19 cells were transiently transfected/cotransfected with pLEDGF 1-326 and/or pWT-Rho (wild type)/pP23H-Rho. Rhodopsin mediated cellular damage and rescue by LEDGF 1-326 was assessed using cell viability, cell proliferation, and confocal microscopy assays. Rhodopsin monomers, oligomers, and their reduction in the presence of LEDGF 1-326 were quantified by western blot analysis. P23H rhodopsin mRNA levels in the presence and absence of LEDGF 1-326 was determined by real time quantitative PCR. Principal Findings: P23H rhodopsin reduced RPE cell viability and cell proliferation in a dose dependent manner, and disrupted the nuclear material. LEDGF 1-326 did not alter P23H rhodopsin mRNA levels, reduced its oligomers, and significantly increased RPE cell viability as well as proliferation, while reducing nuclear damage. WT rhodopsin formed oligomers, although to a smaller extent than P23H rhodopsin. Further, LEDGF 1-326 decreased WT rhodopsin aggregates. Conclusions: P23H rhodopsin as well as WT rhodopsin form aggregates in RPE cells and LEDGF 1-326 decreases these aggregates. Further, LEDGF 1-326 reduces the RPE cell damage caused by P23H rhodopsin. LEDGF 1-326 might be useful in treating cellular damage associated with protein aggregation diseases such as retinitis pigmentosa.",
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AU - Singh, Dhirendra P.

AU - Kompella, Uday B.

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N2 - Background: P23H rhodopsin, a mutant rhodopsin, is known to aggregate and cause retinal degeneration. However, its effects on retinal pigment epithelial (RPE) cells are unknown. The purpose of this study was to determine the effect of P23H rhodopsin in RPE cells and further assess whether LEDGF 1-326, a protein devoid of heat shock elements of LEDGF, a cell survival factor, reduces P23H rhodopsin aggregates and any associated cellular damage. Methods: ARPE-19 cells were transiently transfected/cotransfected with pLEDGF 1-326 and/or pWT-Rho (wild type)/pP23H-Rho. Rhodopsin mediated cellular damage and rescue by LEDGF 1-326 was assessed using cell viability, cell proliferation, and confocal microscopy assays. Rhodopsin monomers, oligomers, and their reduction in the presence of LEDGF 1-326 were quantified by western blot analysis. P23H rhodopsin mRNA levels in the presence and absence of LEDGF 1-326 was determined by real time quantitative PCR. Principal Findings: P23H rhodopsin reduced RPE cell viability and cell proliferation in a dose dependent manner, and disrupted the nuclear material. LEDGF 1-326 did not alter P23H rhodopsin mRNA levels, reduced its oligomers, and significantly increased RPE cell viability as well as proliferation, while reducing nuclear damage. WT rhodopsin formed oligomers, although to a smaller extent than P23H rhodopsin. Further, LEDGF 1-326 decreased WT rhodopsin aggregates. Conclusions: P23H rhodopsin as well as WT rhodopsin form aggregates in RPE cells and LEDGF 1-326 decreases these aggregates. Further, LEDGF 1-326 reduces the RPE cell damage caused by P23H rhodopsin. LEDGF 1-326 might be useful in treating cellular damage associated with protein aggregation diseases such as retinitis pigmentosa.

AB - Background: P23H rhodopsin, a mutant rhodopsin, is known to aggregate and cause retinal degeneration. However, its effects on retinal pigment epithelial (RPE) cells are unknown. The purpose of this study was to determine the effect of P23H rhodopsin in RPE cells and further assess whether LEDGF 1-326, a protein devoid of heat shock elements of LEDGF, a cell survival factor, reduces P23H rhodopsin aggregates and any associated cellular damage. Methods: ARPE-19 cells were transiently transfected/cotransfected with pLEDGF 1-326 and/or pWT-Rho (wild type)/pP23H-Rho. Rhodopsin mediated cellular damage and rescue by LEDGF 1-326 was assessed using cell viability, cell proliferation, and confocal microscopy assays. Rhodopsin monomers, oligomers, and their reduction in the presence of LEDGF 1-326 were quantified by western blot analysis. P23H rhodopsin mRNA levels in the presence and absence of LEDGF 1-326 was determined by real time quantitative PCR. Principal Findings: P23H rhodopsin reduced RPE cell viability and cell proliferation in a dose dependent manner, and disrupted the nuclear material. LEDGF 1-326 did not alter P23H rhodopsin mRNA levels, reduced its oligomers, and significantly increased RPE cell viability as well as proliferation, while reducing nuclear damage. WT rhodopsin formed oligomers, although to a smaller extent than P23H rhodopsin. Further, LEDGF 1-326 decreased WT rhodopsin aggregates. Conclusions: P23H rhodopsin as well as WT rhodopsin form aggregates in RPE cells and LEDGF 1-326 decreases these aggregates. Further, LEDGF 1-326 reduces the RPE cell damage caused by P23H rhodopsin. LEDGF 1-326 might be useful in treating cellular damage associated with protein aggregation diseases such as retinitis pigmentosa.

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