Role of Adenosine Triphosphate, Active Mitochondria, and Microtubules in the Acquisition of Developmental Competence of Parthenogenetically Activated Pig Oocytes1

The purpose of this work was to determine the mechanisms regulating the acquisition of cytoplasmic maturation and embryonic developmental competence in pig oocytes. The presence or the absence of porcine follicular fluid (pff; 25% or 0%) in the maturation medium was used as a means to achieve comple...

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Veröffentlicht in:	Biology of reproduction 2005-05, Vol.72 (5), p.1218-1223
Hauptverfasser:	Brevini, Tiziana A. L, Vassena, Rita, Francisci, Chiara, Gandolfi, Fulvio
Format:	Artikel
Sprache:	eng
Schlagworte:	ATP Contents early development gamete biology meiosis microtubule mitochondria ovum parthenogenesis pig oocyte
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container_title	Biology of reproduction
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creator	Brevini, Tiziana A. L Vassena, Rita Francisci, Chiara Gandolfi, Fulvio
description	The purpose of this work was to determine the mechanisms regulating the acquisition of cytoplasmic maturation and embryonic developmental competence in pig oocytes. The presence or the absence of porcine follicular fluid (pff; 25% or 0%) in the maturation medium was used as a means to achieve complete nuclear maturation accompanied or not accompanied by cytoplasmic maturation. ATP content, active mitochondria relocation, and microtubule distribution were analyzed at different times during in vitro maturation (IVM). While nuclear maturation did not differ among the two groups, parthenogenetic embryonic development was significantly higher (41.5%) in the 25% pff group than in the 0% pff group (19.0%) with blastocysts that had a significantly higher number of blastomeres (76.1 ± 6.3, and 47.2 ± 6.5, respectively). Oocyte ATP content increased significantly during IVM, but at the end of maturation no significant differences were observed between high- and low-competence oocytes. An extensive relocation of mitochondria to the inner cytoplasm during IVM together with the formation of a well-developed mesh of cytoplasmic microtubules was observed only in the high-competence oocyte group. However, no differences in the formation of microtubules associated with the meiotic spindles were observed between high- and low-competence groups. We conclude that low developmental competence is associated with the lack of a microtubule cytoplasmic network, which prevents correct relocation of mitochondria and is likely to reflect a more generally altered compartmentalization of the ooplasm. This can be independent from the formation of the microtubule machinery required for the completion of chromosome disjunctions and does not affect the overall ATP content.
doi_str_mv	10.1095/biolreprod.104.038141
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While nuclear maturation did not differ among the two groups, parthenogenetic embryonic development was significantly higher (41.5%) in the 25% pff group than in the 0% pff group (19.0%) with blastocysts that had a significantly higher number of blastomeres (76.1 ± 6.3, and 47.2 ± 6.5, respectively). Oocyte ATP content increased significantly during IVM, but at the end of maturation no significant differences were observed between high- and low-competence oocytes. An extensive relocation of mitochondria to the inner cytoplasm during IVM together with the formation of a well-developed mesh of cytoplasmic microtubules was observed only in the high-competence oocyte group. However, no differences in the formation of microtubules associated with the meiotic spindles were observed between high- and low-competence groups. We conclude that low developmental competence is associated with the lack of a microtubule cytoplasmic network, which prevents correct relocation of mitochondria and is likely to reflect a more generally altered compartmentalization of the ooplasm. 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While nuclear maturation did not differ among the two groups, parthenogenetic embryonic development was significantly higher (41.5%) in the 25% pff group than in the 0% pff group (19.0%) with blastocysts that had a significantly higher number of blastomeres (76.1 ± 6.3, and 47.2 ± 6.5, respectively). Oocyte ATP content increased significantly during IVM, but at the end of maturation no significant differences were observed between high- and low-competence oocytes. An extensive relocation of mitochondria to the inner cytoplasm during IVM together with the formation of a well-developed mesh of cytoplasmic microtubules was observed only in the high-competence oocyte group. However, no differences in the formation of microtubules associated with the meiotic spindles were observed between high- and low-competence groups. We conclude that low developmental competence is associated with the lack of a microtubule cytoplasmic network, which prevents correct relocation of mitochondria and is likely to reflect a more generally altered compartmentalization of the ooplasm. 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L</creatorcontrib><creatorcontrib>Vassena, Rita</creatorcontrib><creatorcontrib>Francisci, Chiara</creatorcontrib><creatorcontrib>Gandolfi, Fulvio</creatorcontrib><collection>CrossRef</collection><jtitle>Biology of reproduction</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Brevini, Tiziana A. 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ATP content, active mitochondria relocation, and microtubule distribution were analyzed at different times during in vitro maturation (IVM). While nuclear maturation did not differ among the two groups, parthenogenetic embryonic development was significantly higher (41.5%) in the 25% pff group than in the 0% pff group (19.0%) with blastocysts that had a significantly higher number of blastomeres (76.1 ± 6.3, and 47.2 ± 6.5, respectively). Oocyte ATP content increased significantly during IVM, but at the end of maturation no significant differences were observed between high- and low-competence oocytes. An extensive relocation of mitochondria to the inner cytoplasm during IVM together with the formation of a well-developed mesh of cytoplasmic microtubules was observed only in the high-competence oocyte group. However, no differences in the formation of microtubules associated with the meiotic spindles were observed between high- and low-competence groups. We conclude that low developmental competence is associated with the lack of a microtubule cytoplasmic network, which prevents correct relocation of mitochondria and is likely to reflect a more generally altered compartmentalization of the ooplasm. This can be independent from the formation of the microtubule machinery required for the completion of chromosome disjunctions and does not affect the overall ATP content.</abstract><doi>10.1095/biolreprod.104.038141</doi><tpages>6</tpages></addata></record>
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source	BioOne Complete; Oxford University Press Journals All Titles (1996-Current); EZB-FREE-00999 freely available EZB journals
subjects	ATP Contents early development gamete biology meiosis microtubule mitochondria ovum parthenogenesis pig oocyte
title	Role of Adenosine Triphosphate, Active Mitochondria, and Microtubules in the Acquisition of Developmental Competence of Parthenogenetically Activated Pig Oocytes1
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