Vital function of PRELI and essential requirement of its LEA motif

M. R. McKeller; S. Herrera-Rodriguez; W. Ma; B. Ortiz-Quintero; R. Rangel; C. Candé; J. C. Sims-Mourtada; V. Melnikova; C. Kashi; L. M. Phan; Z. Chen; P. Huang; K. Dunner; G. Kroemer; K. K. Singh; H. Martinez-Valdez

doi:10.1038/cddis.2009.19

Vital function of PRELI and essential requirement of its LEA motif

M. R. McKeller, S. Herrera-Rodriguez, W. Ma, B. Ortiz-Quintero, R. Rangel, C. Candé, J. C. Sims-Mourtada, V. Melnikova, C. Kashi, L. M. Phan, Z. Chen, P. Huang, K. Dunner, G. Kroemer, K. K. Singh, H. Martinez-Valdez

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Proteins containing the late embryogenesis abundant (LEA) motif comprise a conserved family, postulated to act as cell protectors. However, their function and mechanisms of action remain unclear. Here we show that PRELI, a mammalian LEA-containing homolog of yeast Ups1p, can associate with dynamin-like GTPase Optic Atrophy-1 (OPA1) and contribute to the maintenance of mitochondrial morphology. Accordingly, PRELI can uphold mitochondrial membrane potential (ΔAΦ_m) and enhance respiratory chain (RC) function, shown by its capacity to induce complex-I/NADH dehydrogenase and ATP synthase expression, increase oxygen consumption and reduce reactive oxygen species (ROS) production. PRELI can also inhibit cell death induced by STS, TNF-α or UV irradiation. Moreover, in vitro and in vivo dominant-negative overexpression of mutant PRELI/LEA^- (lacking the LEA motif) and transient in vitro PRELI-specific knockdown can render lymphocytes vulnerable to apoptosis, cause mouse embryo lethality and revert the resistance of lymphoma cells to induced death. Collectively, these data support the long-presumed notion of LEA protein-dependent mechanisms of cytoprotection and suggest that PRELI interacts with OPA1 to maintain mitochondria structures intact, sustain balanced ion ^-/proton⁺ gradients, promote oxidative phosphorylation reactions, regulate pro-and antiapoptotic protein traffic and enable cell responses to induced death. These findings may help to understand how bioenergetics is mechanistically connected with cell survival cues.

Original language	English (US)
Article number	e21
Journal	Cell Death and Disease
Volume	1
Issue number	2
DOIs	https://doi.org/10.1038/cddis.2009.19
State	Published - Feb 2010

Keywords

Cancer
Cell survival
Evolution
LEA family
Mouse genetics

ASJC Scopus subject areas

Immunology
Cellular and Molecular Neuroscience
Cell Biology
Cancer Research

MD Anderson CCSG core facilities

Genetically Engineered Mouse Facility

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10.1038/cddis.2009.19

Cite this

McKeller, M. R., Herrera-Rodriguez, S., Ma, W., Ortiz-Quintero, B., Rangel, R., Candé, C., Sims-Mourtada, J. C., Melnikova, V., Kashi, C., Phan, L. M., Chen, Z., Huang, P., Dunner, K., Kroemer, G., Singh, K. K., & Martinez-Valdez, H. (2010). Vital function of PRELI and essential requirement of its LEA motif. Cell Death and Disease, 1(2), Article e21. https://doi.org/10.1038/cddis.2009.19

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abstract = "Proteins containing the late embryogenesis abundant (LEA) motif comprise a conserved family, postulated to act as cell protectors. However, their function and mechanisms of action remain unclear. Here we show that PRELI, a mammalian LEA-containing homolog of yeast Ups1p, can associate with dynamin-like GTPase Optic Atrophy-1 (OPA1) and contribute to the maintenance of mitochondrial morphology. Accordingly, PRELI can uphold mitochondrial membrane potential (ΔAΦm) and enhance respiratory chain (RC) function, shown by its capacity to induce complex-I/NADH dehydrogenase and ATP synthase expression, increase oxygen consumption and reduce reactive oxygen species (ROS) production. PRELI can also inhibit cell death induced by STS, TNF-α or UV irradiation. Moreover, in vitro and in vivo dominant-negative overexpression of mutant PRELI/LEA- (lacking the LEA motif) and transient in vitro PRELI-specific knockdown can render lymphocytes vulnerable to apoptosis, cause mouse embryo lethality and revert the resistance of lymphoma cells to induced death. Collectively, these data support the long-presumed notion of LEA protein-dependent mechanisms of cytoprotection and suggest that PRELI interacts with OPA1 to maintain mitochondria structures intact, sustain balanced ion -/proton+ gradients, promote oxidative phosphorylation reactions, regulate pro-and antiapoptotic protein traffic and enable cell responses to induced death. These findings may help to understand how bioenergetics is mechanistically connected with cell survival cues.",

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author = "McKeller, {M. R.} and S. Herrera-Rodriguez and W. Ma and B. Ortiz-Quintero and R. Rangel and C. Cand{\'e} and Sims-Mourtada, {J. C.} and V. Melnikova and C. Kashi and Phan, {L. M.} and Z. Chen and P. Huang and K. Dunner and G. Kroemer and Singh, {K. K.} and H. Martinez-Valdez",

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AU - McKeller, M. R.

AU - Herrera-Rodriguez, S.

AU - Ma, W.

AU - Ortiz-Quintero, B.

AU - Rangel, R.

AU - Candé, C.

AU - Sims-Mourtada, J. C.

AU - Melnikova, V.

AU - Kashi, C.

AU - Phan, L. M.

AU - Chen, Z.

AU - Huang, P.

AU - Dunner, K.

AU - Kroemer, G.

AU - Singh, K. K.

AU - Martinez-Valdez, H.

PY - 2010/2

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N2 - Proteins containing the late embryogenesis abundant (LEA) motif comprise a conserved family, postulated to act as cell protectors. However, their function and mechanisms of action remain unclear. Here we show that PRELI, a mammalian LEA-containing homolog of yeast Ups1p, can associate with dynamin-like GTPase Optic Atrophy-1 (OPA1) and contribute to the maintenance of mitochondrial morphology. Accordingly, PRELI can uphold mitochondrial membrane potential (ΔAΦm) and enhance respiratory chain (RC) function, shown by its capacity to induce complex-I/NADH dehydrogenase and ATP synthase expression, increase oxygen consumption and reduce reactive oxygen species (ROS) production. PRELI can also inhibit cell death induced by STS, TNF-α or UV irradiation. Moreover, in vitro and in vivo dominant-negative overexpression of mutant PRELI/LEA- (lacking the LEA motif) and transient in vitro PRELI-specific knockdown can render lymphocytes vulnerable to apoptosis, cause mouse embryo lethality and revert the resistance of lymphoma cells to induced death. Collectively, these data support the long-presumed notion of LEA protein-dependent mechanisms of cytoprotection and suggest that PRELI interacts with OPA1 to maintain mitochondria structures intact, sustain balanced ion -/proton+ gradients, promote oxidative phosphorylation reactions, regulate pro-and antiapoptotic protein traffic and enable cell responses to induced death. These findings may help to understand how bioenergetics is mechanistically connected with cell survival cues.

AB - Proteins containing the late embryogenesis abundant (LEA) motif comprise a conserved family, postulated to act as cell protectors. However, their function and mechanisms of action remain unclear. Here we show that PRELI, a mammalian LEA-containing homolog of yeast Ups1p, can associate with dynamin-like GTPase Optic Atrophy-1 (OPA1) and contribute to the maintenance of mitochondrial morphology. Accordingly, PRELI can uphold mitochondrial membrane potential (ΔAΦm) and enhance respiratory chain (RC) function, shown by its capacity to induce complex-I/NADH dehydrogenase and ATP synthase expression, increase oxygen consumption and reduce reactive oxygen species (ROS) production. PRELI can also inhibit cell death induced by STS, TNF-α or UV irradiation. Moreover, in vitro and in vivo dominant-negative overexpression of mutant PRELI/LEA- (lacking the LEA motif) and transient in vitro PRELI-specific knockdown can render lymphocytes vulnerable to apoptosis, cause mouse embryo lethality and revert the resistance of lymphoma cells to induced death. Collectively, these data support the long-presumed notion of LEA protein-dependent mechanisms of cytoprotection and suggest that PRELI interacts with OPA1 to maintain mitochondria structures intact, sustain balanced ion -/proton+ gradients, promote oxidative phosphorylation reactions, regulate pro-and antiapoptotic protein traffic and enable cell responses to induced death. These findings may help to understand how bioenergetics is mechanistically connected with cell survival cues.

KW - Cancer

KW - Cell survival

KW - Evolution

KW - LEA family

KW - Mouse genetics

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SN - 2041-4889

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JO - Cell Death and Disease

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IS - 2

M1 - e21

ER -

Vital function of PRELI and essential requirement of its LEA motif

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

Access to Document

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