Nuclear elongation during spermiogenesis depends on physical linkage of nuclear pore complexes to bundled microtubules by Drosophila Mst27D

Li, Pengfei; Messina, Giovanni; Lehner, Christian F.

doi:10.1371/journal.pgen.1010837

Cited by 3 publications

References 93 publications

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An orphan gene is essential for efficient sperm entry into eggs inDrosophila melanogaster

Guay,

Patel,

Thomalla

et al. 2024

Preprint

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New genes arise through a variety of evolutionary processes and provide raw material for adaptation in the face of both natural and sexual selection.De novoevolved genes emerge from previously non-protein-coding DNA sequences, and many such genes are expressed in male reproductive structures. InDrosophila melanogaster, several putativede novogenes have evolved essential roles in spermatogenesis, but whether such genes can also impact sperm function beyond the male has not been investigated. We identified a putativede novogene,katherine johnson(kj), that is required for high levels of male fertility. Males that do not expresskjproduce and transfer sperm that are stored normally in females, but sperm from these males enter eggs with severely reduced efficiency. Using a tagged transgenic rescue construct, we observed that KJ protein localizes to the nuclear periphery in various stages of spermatogenesis, but is not detectable in mature sperm. These data suggest thatkjexerts an effect on sperm development, the loss of which results in reduced fertilization ability. While previous bioinformatic analyses suggested thekjgene was restricted to themelanogastergroup ofDrosophila, we identified putative orthologs with conserved synteny, male-biased expression, and predicted protein features across the genus, as well as instances of gene loss in some lineages. Thus,kjpotentially arose in theDrosophilacommon ancestor and subsequently evolved an essential role inD. melanogaster. Our results demonstrate a new aspect of male reproduction that has been shaped by new gene evolution and provide a molecular foothold for further investigating the mechanism of sperm entry into eggs inDrosophila.Article SummaryHow fruit fly sperm enter eggs is poorly understood. Here, we identify a gene that potentially arose from non-protein-coding DNA and is required for efficient fertilization. Sperm from males lacking this gene’s function cannot enter eggs. The gene appears to act during sperm production, rather than in mature sperm. This study illustrates how newly evolved genes can affect important aspects of reproduction and provides insights into sperm-egg interactions.

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An orphan gene is essential for efficient sperm entry into eggs inDrosophila melanogaster

Guay,

Patel,

Thomalla

et al. 2024

Preprint

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The evolutionarily conserved PhLP3 is essential for sperm development in Drosophila melanogaster

Petit,

Kojak,

Webster

et al. 2024

PLoS ONE

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Phosducin-like proteins (PhLP) are thioredoxin domain-containing proteins that are highly conserved across unicellular and multicellular organisms. PhLP family proteins are hypothesized to function as co-chaperones in the folding of cytoskeletal proteins. Here, we present the initial molecular, biochemical, and functional characterization of CG4511 as Drosophila melanogaster PhLP3. We cloned the gene into a bacterial expression vector and produced enzymatically active recombinant PhLP3, which showed similar kinetics to previously characterized orthologues. A fly strain homozygous for a P-element insertion in the 5’ UTR of the PhLP3 gene exhibited significant downregulation of PhLP3 expression. We found these male flies to be sterile. Microscopic analysis revealed altered testes morphology and impairment of spermiogenesis, leading to a lack of mature sperm. Among the most significant observations was the lack of actin cones during sperm maturation. Excision of the P-element insertion in PhLP3 restored male fertility, spermiogenesis, and seminal vesicle size. Given the high level of conservation of PhLP3, our data suggests PhLP3 may be an important regulator of sperm development across species.

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Nuclear Structure, Size Regulation, and Role in Cell Migration

Li,

Ge,

Liu

et al. 2024

Cells

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The nucleus serves as a pivotal regulatory and control hub in the cell, governing numerous aspects of cellular functions, including DNA replication, transcription, and RNA processing. Therefore, any deviations in nuclear morphology, structure, or organization can strongly affect cellular activities. In this review, we provide an updated perspective on the structure and function of nuclear components, focusing on the linker of nucleoskeleton and cytoskeleton complex, the nuclear envelope, the nuclear lamina, and chromatin. Additionally, nuclear size should be considered a fundamental parameter for the cellular state. Its regulation is tightly linked to environmental changes, development, and various diseases, including cancer. Hence, we also provide a concise overview of different mechanisms by which nuclear size is determined, the emerging role of the nucleus as a mechanical sensor, and the implications of altered nuclear morphology on the physiology of diseased cells.

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Nuclear elongation during spermiogenesis depends on physical linkage of nuclear pore complexes to bundled microtubules by Drosophila Mst27D

Cited by 3 publications

References 93 publications

An orphan gene is essential for efficient sperm entry into eggs inDrosophila melanogaster

An orphan gene is essential for efficient sperm entry into eggs inDrosophila melanogaster

The evolutionarily conserved PhLP3 is essential for sperm development in Drosophila melanogaster

Nuclear Structure, Size Regulation, and Role in Cell Migration

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