4.4 Article

E2F4's cytoplasmic role in multiciliogenesis is mediated via an N-terminal domain that binds two components of the centriole replication machinery, Deup1 and SAS6

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MOLECULAR BIOLOGY OF THE CELL
卷 32, 期 20, 页码 -

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AMER SOC CELL BIOLOGY
DOI: 10.1091/mbc.E21-01-0039

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  1. National Cancer Institute [P30-CA14051, PO1 CA42063]
  2. National Institutes of Health
  3. National Heart, Lung, and Body Institute [R35 HL135834-01]
  4. National Institute of General Medical Science [R01 GM124148]
  5. David H. Koch Fellowship for Cancer Research

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The multiciliated cells require E2F4 to associate with components of the centriole replication machinery for their cytoplasmic roles in multiciliogenesis. The N-terminal domain of E2F4 is sufficient to mediate its cytoplasmic role in multiciliogenesis by binding to Deup1 and SAS6. The ability of E2F4 and E2F5 to recruit Deup1 and/or SAS6, and facilitate centriole replication, contributes to their shared roles in multiciliogenesis.
Multiciliated cells play critical roles in the airway, reproductive organs, and brain. Generation of multiple cilia requires both activation of a specialized transcriptional program and subsequent massive amplification of centrioles within the cytoplasm. The E2F4 transcription factor is required for both roles and consequently for multiciliogenesis. Here we establish that E2F4 associates with two distinct components of the centriole replication machinery, Deup1 and SAS6, targeting nonhomologous domains in these proteins. We map Deup1 and SAS6 binding to E2F4's N-terminus and show that this domain is sufficient to mediate E2F4's cytoplasmic role in multiciliogenesis. This sequence is highly conserved across the E2F family, but the ability to bind Deup1 and SAS6 is specific to E2F4 and E2F5, consistent with their shared roles in multiciliogenesis. By generating E2F4/E2F1 chimeras, we identify a six-residue motif that is critical for Deup1 and SAS6 binding. We propose that the ability of E2F4 and E2F5 to recruit Deup1 and/or SAS6, and enable centriole replication, contributes to their cytoplasmic roles in multiciliogenesis.

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