The TSC22D, WNK, and NRBP gene families exhibit functional buffering and evolved with Metazoa for cell volume regulation

Yu Xi Xiao; Seon Yong Lee; Magali Aguilera-Uribe; Reuben Samson; Aaron Au; Yukti Khanna; Zetao Liu; Ran Cheng; Kamaldeep Aulakh; Jiarun Wei; Adrian Granda Farias; Taylor Reilly; Saba Birkadze; Andrea Habsid; Kevin R. Brown; Katherine Chan; Patricia Mero; Jie Qi Huang; Maximilian Billmann; Mahfuzur Rahman; Chad Myers; Brenda J. Andrews; Ji Young Youn; Christopher M. Yip; Daniela Rotin; W. Brent Derry; Julie D. Forman-Kay; Alan M. Moses; Iva Pritišanac; Anne Claude Gingras; Jason Moffat

doi:10.1016/j.celrep.2024.114417

The TSC22D, WNK, and NRBP gene families exhibit functional buffering and evolved with Metazoa for cell volume regulation

Yu Xi Xiao
, Seon Yong Lee
, Magali Aguilera-Uribe
, Reuben Samson
, Aaron Au
, Yukti Khanna
, Zetao Liu
, Ran Cheng
, Kamaldeep Aulakh
, Jiarun Wei
, Adrian Granda Farias
, Taylor Reilly
, Saba Birkadze
, Andrea Habsid
, Kevin R. Brown
, Katherine Chan
, Patricia Mero
, Jie Qi Huang
, Maximilian Billmann
, Mahfuzur Rahman

Chad Myers, Brenda J. Andrews, Ji Young Youn, Christopher M. Yip, Daniela Rotin, W. Brent Derry, Julie D. Forman-Kay, Alan M. Moses, Iva Pritišanac, Anne Claude Gingras, Jason Moffat

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

13 Scopus citations

Abstract

The ability to sense and respond to osmotic fluctuations is critical for the maintenance of cellular integrity. We used gene co-essentiality analysis to identify an unappreciated relationship between TSC22D2, WNK1, and NRBP1 in regulating cell volume homeostasis. All of these genes have paralogs and are functionally buffered for osmo-sensing and cell volume control. Within seconds of hyperosmotic stress, TSC22D, WNK, and NRBP family members physically associate into biomolecular condensates, a process that is dependent on intrinsically disordered regions (IDRs). A close examination of these protein families across metazoans revealed that TSC22D genes evolved alongside a domain in NRBPs that specifically binds to TSC22D proteins, which we have termed NbrT (NRBP binding region with TSC22D), and this co-evolution is accompanied by rapid IDR length expansion in WNK-family kinases. Our study reveals that TSC22D, WNK, and NRBP genes evolved in metazoans to co-regulate rapid cell volume changes in response to osmolarity.

Original language	English (US)
Article number	114417
Journal	Cell reports
Volume	43
Issue number	7
DOIs	https://doi.org/10.1016/j.celrep.2024.114417
State	Published - Jul 23 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2024 The Author(s)

Keywords

CP: Molecular biology
NRBP pseudo-kinases
TSC22D family
WNK kinases
biomolecular condensates
cell volume control
essential genes
genetic buffering
genetic interactions
intrinsic disordered regions
paralog dominance

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10.1016/j.celrep.2024.114417

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Xiao, Y. X., Lee, S. Y., Aguilera-Uribe, M., Samson, R., Au, A., Khanna, Y., Liu, Z., Cheng, R., Aulakh, K., Wei, J., Farias, A. G., Reilly, T., Birkadze, S., Habsid, A., Brown, K. R., Chan, K., Mero, P., Huang, J. Q., Billmann, M., ... Moffat, J. (2024). The TSC22D, WNK, and NRBP gene families exhibit functional buffering and evolved with Metazoa for cell volume regulation. Cell reports, 43(7), Article 114417. https://doi.org/10.1016/j.celrep.2024.114417

Xiao, YX, Lee, SY, Aguilera-Uribe, M, Samson, R, Au, A, Khanna, Y, Liu, Z, Cheng, R, Aulakh, K, Wei, J, Farias, AG, Reilly, T, Birkadze, S, Habsid, A, Brown, KR, Chan, K, Mero, P, Huang, JQ, Billmann, M, Rahman, M, Myers, C, Andrews, BJ, Youn, JY, Yip, CM, Rotin, D, Derry, WB, Forman-Kay, JD, Moses, AM, Pritišanac, I, Gingras, AC & Moffat, J 2024, 'The TSC22D, WNK, and NRBP gene families exhibit functional buffering and evolved with Metazoa for cell volume regulation', Cell reports, vol. 43, no. 7, 114417. https://doi.org/10.1016/j.celrep.2024.114417

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title = "The TSC22D, WNK, and NRBP gene families exhibit functional buffering and evolved with Metazoa for cell volume regulation",

abstract = "The ability to sense and respond to osmotic fluctuations is critical for the maintenance of cellular integrity. We used gene co-essentiality analysis to identify an unappreciated relationship between TSC22D2, WNK1, and NRBP1 in regulating cell volume homeostasis. All of these genes have paralogs and are functionally buffered for osmo-sensing and cell volume control. Within seconds of hyperosmotic stress, TSC22D, WNK, and NRBP family members physically associate into biomolecular condensates, a process that is dependent on intrinsically disordered regions (IDRs). A close examination of these protein families across metazoans revealed that TSC22D genes evolved alongside a domain in NRBPs that specifically binds to TSC22D proteins, which we have termed NbrT (NRBP binding region with TSC22D), and this co-evolution is accompanied by rapid IDR length expansion in WNK-family kinases. Our study reveals that TSC22D, WNK, and NRBP genes evolved in metazoans to co-regulate rapid cell volume changes in response to osmolarity.",

keywords = "CP: Molecular biology, NRBP pseudo-kinases, TSC22D family, WNK kinases, biomolecular condensates, cell volume control, essential genes, genetic buffering, genetic interactions, intrinsic disordered regions, paralog dominance",

author = "Xiao, \{Yu Xi\} and Lee, \{Seon Yong\} and Magali Aguilera-Uribe and Reuben Samson and Aaron Au and Yukti Khanna and Zetao Liu and Ran Cheng and Kamaldeep Aulakh and Jiarun Wei and Farias, \{Adrian Granda\} and Taylor Reilly and Saba Birkadze and Andrea Habsid and Brown, \{Kevin R.\} and Katherine Chan and Patricia Mero and Huang, \{Jie Qi\} and Maximilian Billmann and Mahfuzur Rahman and Chad Myers and Andrews, \{Brenda J.\} and Youn, \{Ji Young\} and Yip, \{Christopher M.\} and Daniela Rotin and Derry, \{W. Brent\} and Forman-Kay, \{Julie D.\} and Moses, \{Alan M.\} and Iva Priti{\v s}anac and Gingras, \{Anne Claude\} and Jason Moffat",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2024",

month = jul,

day = "23",

doi = "10.1016/j.celrep.2024.114417",

language = "English (US)",

volume = "43",

journal = "Cell reports",

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TY - JOUR

T1 - The TSC22D, WNK, and NRBP gene families exhibit functional buffering and evolved with Metazoa for cell volume regulation

AU - Xiao, Yu Xi

AU - Lee, Seon Yong

AU - Aguilera-Uribe, Magali

AU - Samson, Reuben

AU - Au, Aaron

AU - Khanna, Yukti

AU - Liu, Zetao

AU - Cheng, Ran

AU - Aulakh, Kamaldeep

AU - Wei, Jiarun

AU - Farias, Adrian Granda

AU - Reilly, Taylor

AU - Birkadze, Saba

AU - Habsid, Andrea

AU - Brown, Kevin R.

AU - Chan, Katherine

AU - Mero, Patricia

AU - Huang, Jie Qi

AU - Billmann, Maximilian

AU - Rahman, Mahfuzur

AU - Myers, Chad

AU - Andrews, Brenda J.

AU - Youn, Ji Young

AU - Yip, Christopher M.

AU - Rotin, Daniela

AU - Derry, W. Brent

AU - Forman-Kay, Julie D.

AU - Moses, Alan M.

AU - Pritišanac, Iva

AU - Gingras, Anne Claude

AU - Moffat, Jason

PY - 2024/7/23

Y1 - 2024/7/23

N2 - The ability to sense and respond to osmotic fluctuations is critical for the maintenance of cellular integrity. We used gene co-essentiality analysis to identify an unappreciated relationship between TSC22D2, WNK1, and NRBP1 in regulating cell volume homeostasis. All of these genes have paralogs and are functionally buffered for osmo-sensing and cell volume control. Within seconds of hyperosmotic stress, TSC22D, WNK, and NRBP family members physically associate into biomolecular condensates, a process that is dependent on intrinsically disordered regions (IDRs). A close examination of these protein families across metazoans revealed that TSC22D genes evolved alongside a domain in NRBPs that specifically binds to TSC22D proteins, which we have termed NbrT (NRBP binding region with TSC22D), and this co-evolution is accompanied by rapid IDR length expansion in WNK-family kinases. Our study reveals that TSC22D, WNK, and NRBP genes evolved in metazoans to co-regulate rapid cell volume changes in response to osmolarity.

AB - The ability to sense and respond to osmotic fluctuations is critical for the maintenance of cellular integrity. We used gene co-essentiality analysis to identify an unappreciated relationship between TSC22D2, WNK1, and NRBP1 in regulating cell volume homeostasis. All of these genes have paralogs and are functionally buffered for osmo-sensing and cell volume control. Within seconds of hyperosmotic stress, TSC22D, WNK, and NRBP family members physically associate into biomolecular condensates, a process that is dependent on intrinsically disordered regions (IDRs). A close examination of these protein families across metazoans revealed that TSC22D genes evolved alongside a domain in NRBPs that specifically binds to TSC22D proteins, which we have termed NbrT (NRBP binding region with TSC22D), and this co-evolution is accompanied by rapid IDR length expansion in WNK-family kinases. Our study reveals that TSC22D, WNK, and NRBP genes evolved in metazoans to co-regulate rapid cell volume changes in response to osmolarity.

KW - CP: Molecular biology

KW - NRBP pseudo-kinases

KW - TSC22D family

KW - WNK kinases

KW - biomolecular condensates

KW - cell volume control

KW - essential genes

KW - genetic buffering

KW - genetic interactions

KW - intrinsic disordered regions

KW - paralog dominance

UR - https://www.scopus.com/pages/publications/85198020711

UR - https://www.scopus.com/pages/publications/85198020711#tab=citedBy

U2 - 10.1016/j.celrep.2024.114417

DO - 10.1016/j.celrep.2024.114417

M3 - Article

C2 - 38980795

AN - SCOPUS:85198020711

SN - 2211-1247

VL - 43

JO - Cell reports

JF - Cell reports

IS - 7

M1 - 114417

ER -

The TSC22D, WNK, and NRBP gene families exhibit functional buffering and evolved with Metazoa for cell volume regulation

Abstract

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