Assessing Interferon Regulatory Factor 4 Complex Formation: Differential Behavior of Homocomplexes Versus Heterocomplexes Induced by Mutations

Interferon regulatory factor 4 (IRF4) is a crucial transcription factor that plays a vital role in lymphocyte development, including in the fate-determining steps in terminal differentiation. It is also implicated in the development of lymphoid tumors such as multiple myeloma and adult T-cell leukem...

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Veröffentlicht in:	Biochemistry (Easton) 2024-03, Vol.63 (6), p.767-776
Hauptverfasser:	Li, Yupeng, Hirano, Setoka, Sato, Katsuya, Osawa, Masatake, Nagaoka, Hitoshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Base Sequence Gene Expression Regulation HEK293 Cells Humans Interferon Regulatory Factor-3 - genetics Interferon Regulatory Factor-3 - metabolism Interferon Regulatory Factors - genetics Interferon Regulatory Factors - metabolism Mutation Transcription Factor AP-1 - metabolism
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container_title	Biochemistry (Easton)
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creator	Li, Yupeng Hirano, Setoka Sato, Katsuya Osawa, Masatake Nagaoka, Hitoshi
description	Interferon regulatory factor 4 (IRF4) is a crucial transcription factor that plays a vital role in lymphocyte development, including in the fate-determining steps in terminal differentiation. It is also implicated in the development of lymphoid tumors such as multiple myeloma and adult T-cell leukemia. IRF4 can form a homodimer and multiple heterocomplexes with other transcription factors such as purine-rich box1 and activator protein 1. Each protein complex binds to specific DNA sequences to regulate a distinct set of genes. However, the precise relationship among these complex formations remains unclear. Herein, we investigated the abilities of IRF4 proteins with functional mutations in the IRF-association domain and autoinhibitory region to form complexes using luciferase reporter assays. The assays allowed us to selectively assess the activity of each complex. Our results revealed that certain IRF-association domain mutants, previously known to have impaired heterocomplex formation, maintained or even enhanced homodimer activity. This discrepancy suggests that the mutated amino acid residues selectively influence homodimer activity. Conversely, a phosphomimetic serine mutation in the autoinhibitory region displayed strong activating effects in all complexes. Furthermore, we observed that partner proteins involved in heterocomplex formation could disrupt the activity of the homodimer, suggesting a potential competition between homocomplexes and heterocomplexes. Our findings provide new insights into the mechanistic function of IRF4.
doi_str_mv	10.1021/acs.biochem.3c00512
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Conversely, a phosphomimetic serine mutation in the autoinhibitory region displayed strong activating effects in all complexes. Furthermore, we observed that partner proteins involved in heterocomplex formation could disrupt the activity of the homodimer, suggesting a potential competition between homocomplexes and heterocomplexes. 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Conversely, a phosphomimetic serine mutation in the autoinhibitory region displayed strong activating effects in all complexes. Furthermore, we observed that partner proteins involved in heterocomplex formation could disrupt the activity of the homodimer, suggesting a potential competition between homocomplexes and heterocomplexes. 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subjects	Base Sequence Gene Expression Regulation HEK293 Cells Humans Interferon Regulatory Factor-3 - genetics Interferon Regulatory Factor-3 - metabolism Interferon Regulatory Factors - genetics Interferon Regulatory Factors - metabolism Mutation Transcription Factor AP-1 - metabolism
title	Assessing Interferon Regulatory Factor 4 Complex Formation: Differential Behavior of Homocomplexes Versus Heterocomplexes Induced by Mutations
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