DYN-1 regulates SPD-2 and PLK-1 localization and mitotic spindle pole organization

Carter Dierlam; Stephanie Held; Jiya Hastings; Livinus Anyanwu; Robert  H Newman; Jyoti Iyer

DYN-1 regulates SPD-2 and PLK-1 localization and mitotic spindle pole organization

Carter Dierlam
, Stephanie Held
, Jiya Hastings
, Livinus Anyanwu
, Robert H Newman
, Jyoti Iyer

Biology

Research output: Contribution to journal › Article

Abstract

Accurate mitosis is essential for genome stability. Although dynamin is best known for its role in vesicular trafficking, its functions during mitosis remain unclear. Here, we identify a mitotic role for the dynamin homolog DYN-1 in regulating spindle assembly and the localization of the key mitotic regulators SPD-2 and PLK-1. Depletion of DYN-1 results in enlarged metaphase spindle poles and increased centrosomal SPD-2 and PLK-1 levels. These effects likely depend on DYN-1-mediated vesicular trafficking, as shown by assays with the allele. Additionally, a subset of DYN-1-depleted embryos exhibit altered PLK-1 localization at the midbody during late mitosis, correlating with midbody assembly defects. Together, these findings establish DYN-1 as a previously unrecognized regulator of spindle pole organization and early midbody assembly.

Original language	English
Pages (from-to)	mbcE25070337
Journal	Unknown journal
State	Published - 2026

Cite this

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title = "DYN-1 regulates SPD-2 and PLK-1 localization and mitotic spindle pole organization",

abstract = "Accurate mitosis is essential for genome stability. Although dynamin is best known for its role in vesicular trafficking, its functions during mitosis remain unclear. Here, we identify a mitotic role for the dynamin homolog DYN-1 in regulating spindle assembly and the localization of the key mitotic regulators SPD-2 and PLK-1. Depletion of DYN-1 results in enlarged metaphase spindle poles and increased centrosomal SPD-2 and PLK-1 levels. These effects likely depend on DYN-1-mediated vesicular trafficking, as shown by assays with the allele. Additionally, a subset of DYN-1-depleted embryos exhibit altered PLK-1 localization at the midbody during late mitosis, correlating with midbody assembly defects. Together, these findings establish DYN-1 as a previously unrecognized regulator of spindle pole organization and early midbody assembly.",

author = "Carter Dierlam and Stephanie Held and Jiya Hastings and Livinus Anyanwu and Newman, \{Robert H\} and Jyoti Iyer",

year = "2026",

language = "English",

pages = "mbcE25070337",

journal = "Unknown journal",

}

TY - JOUR

T1 - DYN-1 regulates SPD-2 and PLK-1 localization and mitotic spindle pole organization

AU - Dierlam, Carter

AU - Held, Stephanie

AU - Hastings, Jiya

AU - Anyanwu, Livinus

AU - Newman, Robert H

AU - Iyer, Jyoti

PY - 2026

Y1 - 2026

N2 - Accurate mitosis is essential for genome stability. Although dynamin is best known for its role in vesicular trafficking, its functions during mitosis remain unclear. Here, we identify a mitotic role for the dynamin homolog DYN-1 in regulating spindle assembly and the localization of the key mitotic regulators SPD-2 and PLK-1. Depletion of DYN-1 results in enlarged metaphase spindle poles and increased centrosomal SPD-2 and PLK-1 levels. These effects likely depend on DYN-1-mediated vesicular trafficking, as shown by assays with the allele. Additionally, a subset of DYN-1-depleted embryos exhibit altered PLK-1 localization at the midbody during late mitosis, correlating with midbody assembly defects. Together, these findings establish DYN-1 as a previously unrecognized regulator of spindle pole organization and early midbody assembly.

AB - Accurate mitosis is essential for genome stability. Although dynamin is best known for its role in vesicular trafficking, its functions during mitosis remain unclear. Here, we identify a mitotic role for the dynamin homolog DYN-1 in regulating spindle assembly and the localization of the key mitotic regulators SPD-2 and PLK-1. Depletion of DYN-1 results in enlarged metaphase spindle poles and increased centrosomal SPD-2 and PLK-1 levels. These effects likely depend on DYN-1-mediated vesicular trafficking, as shown by assays with the allele. Additionally, a subset of DYN-1-depleted embryos exhibit altered PLK-1 localization at the midbody during late mitosis, correlating with midbody assembly defects. Together, these findings establish DYN-1 as a previously unrecognized regulator of spindle pole organization and early midbody assembly.

M3 - Article

SP - mbcE25070337

JO - Unknown journal

JF - Unknown journal

ER -

DYN-1 regulates SPD-2 and PLK-1 localization and mitotic spindle pole organization

Abstract

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