Modification of Crocodile Spermatozoa Refutes the Tenet That Post-testicular Sperm Maturation Is Restricted To Mammals.

Nixon, B; Johnston, SD; Skerrett-Byrne, DA; Anderson, AL; Stanger, SJ; Bromfield, EG; Martin, JH; Hansbro, PM; Dun, MD

Modification of Crocodile Spermatozoa Refutes the Tenet That Post-testicular Sperm Maturation Is Restricted To Mammals.

Nixon, B Johnston, SD Skerrett-Byrne, DA Anderson, AL Stanger, SJ Bromfield, EG Martin, JH Hansbro, PM Dun, MD

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Publication Type:: Journal Article
Citation:: Molecular & cellular proteomics : MCP, 2019, 18 Suppl 1, pp. S58-S76
Issue Date:: 2019-03

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Field	Value	Language
dc.contributor.author	Nixon, B
dc.contributor.author	Johnston, SD
dc.contributor.author	Skerrett-Byrne, DA
dc.contributor.author	Anderson, AL
dc.contributor.author	Stanger, SJ
dc.contributor.author	Bromfield, EG
dc.contributor.author	Martin, JH
dc.contributor.author	Hansbro, PM
dc.contributor.author	Dun, MD
dc.date.accessioned	2021-03-03T04:52:59Z
dc.date.available	2021-03-03T04:52:59Z
dc.date.issued	2019-03
dc.identifier.citation	Molecular & cellular proteomics : MCP, 2019, 18 Suppl 1, pp. S58-S76
dc.identifier.issn	1535-9476
dc.identifier.issn	1535-9484
dc.identifier.uri	http://hdl.handle.net/10453/146704
dc.description.abstract	Competition to achieve paternity has contributed to the development of a multitude of elaborate male reproductive strategies. In one of the most well-studied examples, the spermatozoa of all mammalian species must undergo a series of physiological changes, termed capacitation, in the female reproductive tract before realizing their potential to fertilize an ovum. However, the evolutionary origin and adaptive advantage afforded by capacitation remains obscure. Here, we report the use of comparative and quantitative proteomics to explore the biological significance of capacitation in an ancient reptilian species, the Australian saltwater crocodile (Crocodylus porosus,). Our data reveal that exposure of crocodile spermatozoa to capacitation stimuli elicits a cascade of physiological responses that are analogous to those implicated in the functional activation of their mammalian counterparts. Indeed, among a total of 1119 proteins identified in this study, we detected 126 that were differentially phosphorylated (± 1.2 fold-change) in capacitated versus, noncapacitated crocodile spermatozoa. Notably, this subset of phosphorylated proteins shared substantial evolutionary overlap with those documented in mammalian spermatozoa, and included key elements of signal transduction, metabolic and cellular remodeling pathways. Unlike mammalian sperm, however, we noted a distinct bias for differential phosphorylation of serine (as opposed to tyrosine) residues, with this amino acid featuring as the target for ∼80% of all changes detected in capacitated spermatozoa. Overall, these results indicate that the phenomenon of sperm capacitation is unlikely to be restricted to mammals and provide a framework for understanding the molecular changes in sperm physiology necessary for fertilization.
dc.format	Print-Electronic
dc.language	eng
dc.relation.ispartof	Molecular & cellular proteomics : MCP
dc.relation.isbasedon	10.1074/mcp.ra118.000904
dc.rights	info:eu-repo/semantics/closedAccess
dc.subject.classification	Biochemistry & Molecular Biology
dc.title	Modification of Crocodile Spermatozoa Refutes the Tenet That Post-testicular Sperm Maturation Is Restricted To Mammals.
dc.type	Journal Article
utslib.citation.volume	18 Suppl 1
utslib.location.activity	United States
pubs.organisational-group	/University of Technology Sydney/Faculty of Science
pubs.organisational-group	/University of Technology Sydney/Faculty of Science/School of Life Sciences
pubs.organisational-group	/University of Technology Sydney
utslib.copyright.status	closed_access	*
dc.date.updated	2021-03-03T04:52:55Z
pubs.publication-status	Published
pubs.volume	18 Suppl 1

Abstract:

Competition to achieve paternity has contributed to the development of a multitude of elaborate male reproductive strategies. In one of the most well-studied examples, the spermatozoa of all mammalian species must undergo a series of physiological changes, termed capacitation, in the female reproductive tract before realizing their potential to fertilize an ovum. However, the evolutionary origin and adaptive advantage afforded by capacitation remains obscure. Here, we report the use of comparative and quantitative proteomics to explore the biological significance of capacitation in an ancient reptilian species, the Australian saltwater crocodile (Crocodylus porosus,). Our data reveal that exposure of crocodile spermatozoa to capacitation stimuli elicits a cascade of physiological responses that are analogous to those implicated in the functional activation of their mammalian counterparts. Indeed, among a total of 1119 proteins identified in this study, we detected 126 that were differentially phosphorylated (± 1.2 fold-change) in capacitated versus, noncapacitated crocodile spermatozoa. Notably, this subset of phosphorylated proteins shared substantial evolutionary overlap with those documented in mammalian spermatozoa, and included key elements of signal transduction, metabolic and cellular remodeling pathways. Unlike mammalian sperm, however, we noted a distinct bias for differential phosphorylation of serine (as opposed to tyrosine) residues, with this amino acid featuring as the target for ∼80% of all changes detected in capacitated spermatozoa. Overall, these results indicate that the phenomenon of sperm capacitation is unlikely to be restricted to mammals and provide a framework for understanding the molecular changes in sperm physiology necessary for fertilization.

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http://hdl.handle.net/10453/146704