Widespread variation in molecular interactions and regulatory properties among transcription factor isoforms

Luke Lambourne; Kaia Mattioli; Clarissa Santoso; Gloria Sheynkman; Sachi Inukai; Babita Kaundal; Anna Berenson; Kerstin Spirohn-Fitzgerald; Anukana Bhattacharjee; Elisabeth Rothman; Shaleen Shrestha; Florent Laval; Brent S. Carroll; Stephen P. Plassmeyer; Ryan J. Emenecker; Zhipeng Yang; Deepa Bisht; Jared A. Sewell; Guangyuan Li; Anisa Prasad; Sabrina Phanor; Ryan Lane; Devlin C. Moyer; Toby Hunt; Dawit Balcha; Marinella Gebbia; Jean Claude Twizere; Tong Hao; Alex S. Holehouse; Adam Frankish; Josh A. Riback; Nathan Salomonis; Michael A. Calderwood; David E. Hill; Nidhi Sahni; Marc Vidal; Martha L. Bulyk; Juan I. Fuxman Bass

doi:10.1016/j.molcel.2025.03.004

Widespread variation in molecular interactions and regulatory properties among transcription factor isoforms

Luke Lambourne, Kaia Mattioli, Clarissa Santoso, Gloria Sheynkman, Sachi Inukai, Babita Kaundal, Anna Berenson, Kerstin Spirohn-Fitzgerald, Anukana Bhattacharjee, Elisabeth Rothman, Shaleen Shrestha, Florent Laval, Brent S. Carroll, Stephen P. Plassmeyer, Ryan J. Emenecker, Zhipeng Yang, Deepa Bisht, Jared A. Sewell, Guangyuan Li, Anisa PrasadSabrina Phanor, Ryan Lane, Devlin C. Moyer, Toby Hunt, Dawit Balcha, Marinella Gebbia, Jean Claude Twizere, Tong Hao, Alex S. Holehouse, Adam Frankish, Josh A. Riback, Nathan Salomonis, Michael A. Calderwood, David E. Hill, Nidhi Sahni, Marc Vidal, Martha L. Bulyk, Juan I. Fuxman Bass

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

1 Scopus citations

Abstract

Most human transcription factor (TF) genes encode multiple protein isoforms differing in DNA-binding domains, effector domains, or other protein regions. The global extent to which this results in functional differences between isoforms remains unknown. Here, we systematically compared 693 isoforms of 246 TF genes, assessing DNA binding, protein binding, transcriptional activation, subcellular localization, and condensate formation. Relative to reference isoforms, two-thirds of alternative TF isoforms exhibit differences in one or more molecular activities, which often could not be predicted from sequence. We observed two primary categories of alternative TF isoforms: “rewirers” and “negative regulators,” both of which were associated with differentiation and cancer. Our results support a model wherein the relative expression levels of, and interactions involving, TF isoforms add an understudied layer of complexity to gene regulatory networks, demonstrating the importance of isoform-aware characterization of TF functions and providing a rich resource for further studies.

Original language	English
Pages (from-to)	1445-1466.e13
Journal	Molecular cell
Volume	85
Issue number	7
DOIs	https://doi.org/10.1016/j.molcel.2025.03.004
State	Published - Apr 3 2025

Keywords

alternative splicing
gene regulation
isoforms
transcription factors
transcriptional regulation

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10.1016/j.molcel.2025.03.004

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Lambourne, L., Mattioli, K., Santoso, C., Sheynkman, G., Inukai, S., Kaundal, B., Berenson, A., Spirohn-Fitzgerald, K., Bhattacharjee, A., Rothman, E., Shrestha, S., Laval, F., Carroll, B. S., Plassmeyer, S. P., Emenecker, R. J., Yang, Z., Bisht, D., Sewell, J. A., Li, G., ... Fuxman Bass, J. I. (2025). Widespread variation in molecular interactions and regulatory properties among transcription factor isoforms. Molecular cell, 85(7), 1445-1466.e13. https://doi.org/10.1016/j.molcel.2025.03.004

@article{e2181520d2a94edf83e0a08e5e36334c,

title = "Widespread variation in molecular interactions and regulatory properties among transcription factor isoforms",

abstract = "Most human transcription factor (TF) genes encode multiple protein isoforms differing in DNA-binding domains, effector domains, or other protein regions. The global extent to which this results in functional differences between isoforms remains unknown. Here, we systematically compared 693 isoforms of 246 TF genes, assessing DNA binding, protein binding, transcriptional activation, subcellular localization, and condensate formation. Relative to reference isoforms, two-thirds of alternative TF isoforms exhibit differences in one or more molecular activities, which often could not be predicted from sequence. We observed two primary categories of alternative TF isoforms: “rewirers” and “negative regulators,” both of which were associated with differentiation and cancer. Our results support a model wherein the relative expression levels of, and interactions involving, TF isoforms add an understudied layer of complexity to gene regulatory networks, demonstrating the importance of isoform-aware characterization of TF functions and providing a rich resource for further studies.",

keywords = "alternative splicing, gene regulation, isoforms, transcription factors, transcriptional regulation",

author = "Luke Lambourne and Kaia Mattioli and Clarissa Santoso and Gloria Sheynkman and Sachi Inukai and Babita Kaundal and Anna Berenson and Kerstin Spirohn-Fitzgerald and Anukana Bhattacharjee and Elisabeth Rothman and Shaleen Shrestha and Florent Laval and Carroll, {Brent S.} and Plassmeyer, {Stephen P.} and Emenecker, {Ryan J.} and Zhipeng Yang and Deepa Bisht and Sewell, {Jared A.} and Guangyuan Li and Anisa Prasad and Sabrina Phanor and Ryan Lane and Moyer, {Devlin C.} and Toby Hunt and Dawit Balcha and Marinella Gebbia and Twizere, {Jean Claude} and Tong Hao and Holehouse, {Alex S.} and Adam Frankish and Riback, {Josh A.} and Nathan Salomonis and Calderwood, {Michael A.} and Hill, {David E.} and Nidhi Sahni and Marc Vidal and Bulyk, {Martha L.} and {Fuxman Bass}, {Juan I.}",

note = "Publisher Copyright: {\textcopyright} 2025 Elsevier Inc.",

year = "2025",

month = apr,

day = "3",

doi = "10.1016/j.molcel.2025.03.004",

language = "English",

volume = "85",

pages = "1445--1466.e13",

journal = "Molecular cell",

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Lambourne, L, Mattioli, K, Santoso, C, Sheynkman, G, Inukai, S, Kaundal, B, Berenson, A, Spirohn-Fitzgerald, K, Bhattacharjee, A, Rothman, E, Shrestha, S, Laval, F, Carroll, BS, Plassmeyer, SP, Emenecker, RJ, Yang, Z, Bisht, D, Sewell, JA, Li, G, Prasad, A, Phanor, S, Lane, R, Moyer, DC, Hunt, T, Balcha, D, Gebbia, M, Twizere, JC, Hao, T, Holehouse, AS, Frankish, A, Riback, JA, Salomonis, N, Calderwood, MA, Hill, DE, Sahni, N, Vidal, M, Bulyk, ML & Fuxman Bass, JI 2025, 'Widespread variation in molecular interactions and regulatory properties among transcription factor isoforms', Molecular cell, vol. 85, no. 7, pp. 1445-1466.e13. https://doi.org/10.1016/j.molcel.2025.03.004

TY - JOUR

T1 - Widespread variation in molecular interactions and regulatory properties among transcription factor isoforms

AU - Lambourne, Luke

AU - Mattioli, Kaia

AU - Santoso, Clarissa

AU - Sheynkman, Gloria

AU - Inukai, Sachi

AU - Kaundal, Babita

AU - Berenson, Anna

AU - Spirohn-Fitzgerald, Kerstin

AU - Bhattacharjee, Anukana

AU - Rothman, Elisabeth

AU - Shrestha, Shaleen

AU - Laval, Florent

AU - Carroll, Brent S.

AU - Plassmeyer, Stephen P.

AU - Emenecker, Ryan J.

AU - Yang, Zhipeng

AU - Bisht, Deepa

AU - Sewell, Jared A.

AU - Li, Guangyuan

AU - Prasad, Anisa

AU - Phanor, Sabrina

AU - Lane, Ryan

AU - Moyer, Devlin C.

AU - Hunt, Toby

AU - Balcha, Dawit

AU - Gebbia, Marinella

AU - Twizere, Jean Claude

AU - Hao, Tong

AU - Holehouse, Alex S.

AU - Frankish, Adam

AU - Riback, Josh A.

AU - Salomonis, Nathan

AU - Calderwood, Michael A.

AU - Hill, David E.

AU - Sahni, Nidhi

AU - Vidal, Marc

AU - Bulyk, Martha L.

AU - Fuxman Bass, Juan I.

PY - 2025/4/3

Y1 - 2025/4/3

N2 - Most human transcription factor (TF) genes encode multiple protein isoforms differing in DNA-binding domains, effector domains, or other protein regions. The global extent to which this results in functional differences between isoforms remains unknown. Here, we systematically compared 693 isoforms of 246 TF genes, assessing DNA binding, protein binding, transcriptional activation, subcellular localization, and condensate formation. Relative to reference isoforms, two-thirds of alternative TF isoforms exhibit differences in one or more molecular activities, which often could not be predicted from sequence. We observed two primary categories of alternative TF isoforms: “rewirers” and “negative regulators,” both of which were associated with differentiation and cancer. Our results support a model wherein the relative expression levels of, and interactions involving, TF isoforms add an understudied layer of complexity to gene regulatory networks, demonstrating the importance of isoform-aware characterization of TF functions and providing a rich resource for further studies.

AB - Most human transcription factor (TF) genes encode multiple protein isoforms differing in DNA-binding domains, effector domains, or other protein regions. The global extent to which this results in functional differences between isoforms remains unknown. Here, we systematically compared 693 isoforms of 246 TF genes, assessing DNA binding, protein binding, transcriptional activation, subcellular localization, and condensate formation. Relative to reference isoforms, two-thirds of alternative TF isoforms exhibit differences in one or more molecular activities, which often could not be predicted from sequence. We observed two primary categories of alternative TF isoforms: “rewirers” and “negative regulators,” both of which were associated with differentiation and cancer. Our results support a model wherein the relative expression levels of, and interactions involving, TF isoforms add an understudied layer of complexity to gene regulatory networks, demonstrating the importance of isoform-aware characterization of TF functions and providing a rich resource for further studies.

KW - alternative splicing

KW - gene regulation

KW - isoforms

KW - transcription factors

KW - transcriptional regulation

UR - http://www.scopus.com/inward/record.url?scp=105001208426&partnerID=8YFLogxK

U2 - 10.1016/j.molcel.2025.03.004

DO - 10.1016/j.molcel.2025.03.004

M3 - Article

C2 - 40147441

AN - SCOPUS:105001208426

SN - 1097-2765

VL - 85

SP - 1445-1466.e13

JO - Molecular cell

JF - Molecular cell

IS - 7

ER -

Widespread variation in molecular interactions and regulatory properties among transcription factor isoforms

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Keywords

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