Centriole remodeling during spermiogenesis in Drosophila
Centriole remodeling during spermiogenesis in Drosophila
The first cell of an animal (zygote) requires centrosomes that are assembled from paternally inherited centrioles and maternally inherited pericentriolar material (PCM) [1]. In some animals, sperm centrioles with typical ultrastructure are the origin of the first centrosomes in the zygote [2-4]. In other animals, however, sperm centrioles lose their proteins and are thought to be degenerated and non-functional during spermiogenesis [5, 6]. Here, we show that the two sperm centrioles (the giant centriole [GC] and the proximal centriole-like structure [PCL]) in Drosophila melanogaster are remodeled during spermiogenesis through protein enrichment and ultrastructure modification in parallel to previously described centrosomal reduction [7]. We found that the ultrastructure of the matured sperm (spermatozoa) centrioles is modified dramatically and that the PCL does not resemble a typical centriole. We also describe a new phenomenon of Poc1 enrichment of the atypical centrioles in the spermatozoa. Using various mutants, protein expression during spermiogenesis, and RNAi knockdown of paternal Poc1, we found that paternal Poc1 enrichment is essential for the formation of centrioles during spermiogenesis and for the formation of centrosomes after fertilization in the zygote. Altogether, these findings demonstrate that the sperm centrioles are remodeled both in their protein composition and in ultrastructure, yet they are functional and are essential for normal embryogenesis in Drosophila.
Animals, Centrioles/physiology, Drosophila Proteins/genetics, Drosophila melanogaster/physiology, Gene Expression Regulation/physiology, Male, Spermatogenesis/physiology, Spermatozoa/physiology
3183-3189
Khire, Atul
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Jo, Kyoung H
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Kong, Dong
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Akhshi, Tara
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Blachon, Stephanie
6393ab26-f8e6-4e5d-86de-daae599e56f2
Cekic, Anthony R
d4ee7432-3916-4e7f-a327-bc7d5be8c18f
Hynek, Sarah
62092ef9-c657-4e51-9305-ce2f5b0216a8
Ha, Andrew
5025a5ba-ef9d-4fa5-9d15-6c1a801af56c
Loncarek, Jadranka
84457114-5482-4c7e-bb0f-aac7a1172e23
Mennella, Vito
43c60e29-c0a7-4ab8-8e5c-fcb59f70a28a
Avidor-Reiss, Tomer
ad760347-f82b-46b6-8ef6-bd1f407acfd5
5 December 2016
Khire, Atul
ea367fdf-e71a-42f7-ab6d-82eb9f21a5e5
Jo, Kyoung H
d1073b12-e7ba-4e3f-994f-a911d42e48e0
Kong, Dong
e8bc4dbb-b121-4943-91e1-d33713aefdf4
Akhshi, Tara
76ad2b2d-cb8c-4521-a8ab-52ee7811c156
Blachon, Stephanie
6393ab26-f8e6-4e5d-86de-daae599e56f2
Cekic, Anthony R
d4ee7432-3916-4e7f-a327-bc7d5be8c18f
Hynek, Sarah
62092ef9-c657-4e51-9305-ce2f5b0216a8
Ha, Andrew
5025a5ba-ef9d-4fa5-9d15-6c1a801af56c
Loncarek, Jadranka
84457114-5482-4c7e-bb0f-aac7a1172e23
Mennella, Vito
43c60e29-c0a7-4ab8-8e5c-fcb59f70a28a
Avidor-Reiss, Tomer
ad760347-f82b-46b6-8ef6-bd1f407acfd5
Khire, Atul, Jo, Kyoung H, Kong, Dong, Akhshi, Tara, Blachon, Stephanie, Cekic, Anthony R, Hynek, Sarah, Ha, Andrew, Loncarek, Jadranka, Mennella, Vito and Avidor-Reiss, Tomer
(2016)
Centriole remodeling during spermiogenesis in Drosophila.
Current Biology, 26 (23), .
(doi:10.1016/j.cub.2016.07.006).
Abstract
The first cell of an animal (zygote) requires centrosomes that are assembled from paternally inherited centrioles and maternally inherited pericentriolar material (PCM) [1]. In some animals, sperm centrioles with typical ultrastructure are the origin of the first centrosomes in the zygote [2-4]. In other animals, however, sperm centrioles lose their proteins and are thought to be degenerated and non-functional during spermiogenesis [5, 6]. Here, we show that the two sperm centrioles (the giant centriole [GC] and the proximal centriole-like structure [PCL]) in Drosophila melanogaster are remodeled during spermiogenesis through protein enrichment and ultrastructure modification in parallel to previously described centrosomal reduction [7]. We found that the ultrastructure of the matured sperm (spermatozoa) centrioles is modified dramatically and that the PCL does not resemble a typical centriole. We also describe a new phenomenon of Poc1 enrichment of the atypical centrioles in the spermatozoa. Using various mutants, protein expression during spermiogenesis, and RNAi knockdown of paternal Poc1, we found that paternal Poc1 enrichment is essential for the formation of centrioles during spermiogenesis and for the formation of centrosomes after fertilization in the zygote. Altogether, these findings demonstrate that the sperm centrioles are remodeled both in their protein composition and in ultrastructure, yet they are functional and are essential for normal embryogenesis in Drosophila.
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More information
e-pub ahead of print date: 27 October 2016
Published date: 5 December 2016
Keywords:
Animals, Centrioles/physiology, Drosophila Proteins/genetics, Drosophila melanogaster/physiology, Gene Expression Regulation/physiology, Male, Spermatogenesis/physiology, Spermatozoa/physiology
Identifiers
Local EPrints ID: 434100
URI: http://eprints.soton.ac.uk/id/eprint/434100
ISSN: 0960-9822
PURE UUID: f48a1521-90cf-4b06-985d-ace3c9782fff
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Date deposited: 12 Sep 2019 16:30
Last modified: 16 Mar 2024 04:03
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Contributors
Author:
Atul Khire
Author:
Kyoung H Jo
Author:
Dong Kong
Author:
Tara Akhshi
Author:
Stephanie Blachon
Author:
Anthony R Cekic
Author:
Sarah Hynek
Author:
Andrew Ha
Author:
Jadranka Loncarek
Author:
Tomer Avidor-Reiss
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