Functional cooperativity between the trigger factor chaperone and the ClpXP proteolytic complex

Kamran Rizzolo; Angela Yeou Hsiung Yu; Adedeji Ologbenla; Sa Rang Kim; Haojie Zhu; Koichiro Ishimori; Guillaume Thibault; Elisa Leung; Yi Wen Zhang; Mona Teng; Marta Haniszewski; Noha Miah; Sadhna Phanse; Zoran Minic; Sukyeong Lee; Julio Diaz Caballero; Mohan Babu; Francis T.F. Tsai; Tomohide Saio; Walid A. Houry

doi:10.1038/s41467-020-20553-x

Functional cooperativity between the trigger factor chaperone and the ClpXP proteolytic complex

Kamran Rizzolo, Angela Yeou Hsiung Yu, Adedeji Ologbenla, Sa Rang Kim, Haojie Zhu, Koichiro Ishimori, Guillaume Thibault, Elisa Leung, Yi Wen Zhang, Mona Teng, Marta Haniszewski, Noha Miah, Sadhna Phanse, Zoran Minic, Sukyeong Lee, Julio Diaz Caballero, Mohan Babu, Francis T.F. Tsai, Tomohide Saio, Walid A. Houry^*

^*Corresponding author for this work

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

15 Citations (Scopus)

Abstract

A functional association is uncovered between the ribosome-associated trigger factor (TF) chaperone and the ClpXP degradation complex. Bioinformatic analyses demonstrate conservation of the close proximity of tig, the gene coding for TF, and genes coding for ClpXP, suggesting a functional interaction. The effect of TF on ClpXP-dependent degradation varies based on the nature of substrate. While degradation of some substrates are slowed down or are unaffected by TF, surprisingly, TF increases the degradation rate of a third class of substrates. These include λ phage replication protein λO, master regulator of stationary phase RpoS, and SsrA-tagged proteins. Globally, TF acts to enhance the degradation of about 2% of newly synthesized proteins. TF is found to interact through multiple sites with ClpX in a highly dynamic fashion to promote protein degradation. This chaperone–protease cooperation constitutes a unique and likely ancestral aspect of cellular protein homeostasis in which TF acts as an adaptor for ClpXP.

Original language	English
Article number	281
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-20553-x
Publication status	Published - Dec 1 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021, The Author(s).

ASJC Scopus Subject Areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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Rizzolo, K., Yu, A. Y. H., Ologbenla, A., Kim, S. R., Zhu, H., Ishimori, K., Thibault, G., Leung, E., Zhang, Y. W., Teng, M., Haniszewski, M., Miah, N., Phanse, S., Minic, Z., Lee, S., Caballero, J. D., Babu, M., Tsai, F. T. F., Saio, T., & Houry, W. A. (2021). Functional cooperativity between the trigger factor chaperone and the ClpXP proteolytic complex. Nature Communications, 12(1), Article 281. https://doi.org/10.1038/s41467-020-20553-x

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title = "Functional cooperativity between the trigger factor chaperone and the ClpXP proteolytic complex",

abstract = "A functional association is uncovered between the ribosome-associated trigger factor (TF) chaperone and the ClpXP degradation complex. Bioinformatic analyses demonstrate conservation of the close proximity of tig, the gene coding for TF, and genes coding for ClpXP, suggesting a functional interaction. The effect of TF on ClpXP-dependent degradation varies based on the nature of substrate. While degradation of some substrates are slowed down or are unaffected by TF, surprisingly, TF increases the degradation rate of a third class of substrates. These include λ phage replication protein λO, master regulator of stationary phase RpoS, and SsrA-tagged proteins. Globally, TF acts to enhance the degradation of about 2% of newly synthesized proteins. TF is found to interact through multiple sites with ClpX in a highly dynamic fashion to promote protein degradation. This chaperone–protease cooperation constitutes a unique and likely ancestral aspect of cellular protein homeostasis in which TF acts as an adaptor for ClpXP.",

author = "Kamran Rizzolo and Yu, {Angela Yeou Hsiung} and Adedeji Ologbenla and Kim, {Sa Rang} and Haojie Zhu and Koichiro Ishimori and Guillaume Thibault and Elisa Leung and Zhang, {Yi Wen} and Mona Teng and Marta Haniszewski and Noha Miah and Sadhna Phanse and Zoran Minic and Sukyeong Lee and Caballero, {Julio Diaz} and Mohan Babu and Tsai, {Francis T.F.} and Tomohide Saio and Houry, {Walid A.}",

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doi = "10.1038/s41467-020-20553-x",

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Rizzolo, K, Yu, AYH, Ologbenla, A, Kim, SR, Zhu, H, Ishimori, K, Thibault, G, Leung, E, Zhang, YW, Teng, M, Haniszewski, M, Miah, N, Phanse, S, Minic, Z, Lee, S, Caballero, JD, Babu, M, Tsai, FTF, Saio, T & Houry, WA 2021, 'Functional cooperativity between the trigger factor chaperone and the ClpXP proteolytic complex', Nature Communications, vol. 12, no. 1, 281. https://doi.org/10.1038/s41467-020-20553-x

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AU - Rizzolo, Kamran

AU - Yu, Angela Yeou Hsiung

AU - Ologbenla, Adedeji

AU - Kim, Sa Rang

AU - Zhu, Haojie

AU - Ishimori, Koichiro

AU - Thibault, Guillaume

AU - Leung, Elisa

AU - Zhang, Yi Wen

AU - Teng, Mona

AU - Haniszewski, Marta

AU - Miah, Noha

AU - Phanse, Sadhna

AU - Minic, Zoran

AU - Lee, Sukyeong

AU - Caballero, Julio Diaz

AU - Babu, Mohan

AU - Tsai, Francis T.F.

AU - Saio, Tomohide

AU - Houry, Walid A.

PY - 2021/12/1

Y1 - 2021/12/1

N2 - A functional association is uncovered between the ribosome-associated trigger factor (TF) chaperone and the ClpXP degradation complex. Bioinformatic analyses demonstrate conservation of the close proximity of tig, the gene coding for TF, and genes coding for ClpXP, suggesting a functional interaction. The effect of TF on ClpXP-dependent degradation varies based on the nature of substrate. While degradation of some substrates are slowed down or are unaffected by TF, surprisingly, TF increases the degradation rate of a third class of substrates. These include λ phage replication protein λO, master regulator of stationary phase RpoS, and SsrA-tagged proteins. Globally, TF acts to enhance the degradation of about 2% of newly synthesized proteins. TF is found to interact through multiple sites with ClpX in a highly dynamic fashion to promote protein degradation. This chaperone–protease cooperation constitutes a unique and likely ancestral aspect of cellular protein homeostasis in which TF acts as an adaptor for ClpXP.

AB - A functional association is uncovered between the ribosome-associated trigger factor (TF) chaperone and the ClpXP degradation complex. Bioinformatic analyses demonstrate conservation of the close proximity of tig, the gene coding for TF, and genes coding for ClpXP, suggesting a functional interaction. The effect of TF on ClpXP-dependent degradation varies based on the nature of substrate. While degradation of some substrates are slowed down or are unaffected by TF, surprisingly, TF increases the degradation rate of a third class of substrates. These include λ phage replication protein λO, master regulator of stationary phase RpoS, and SsrA-tagged proteins. Globally, TF acts to enhance the degradation of about 2% of newly synthesized proteins. TF is found to interact through multiple sites with ClpX in a highly dynamic fashion to promote protein degradation. This chaperone–protease cooperation constitutes a unique and likely ancestral aspect of cellular protein homeostasis in which TF acts as an adaptor for ClpXP.

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Functional cooperativity between the trigger factor chaperone and the ClpXP proteolytic complex

Abstract

Bibliographical note

ASJC Scopus Subject Areas

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