Confocal microscopy analysis of the activity of mitochondria contained within the ‘mitochondrial cloud’ during oogenesis in Xenopus laevis

Martin Wilding; Rosa Carotenuto; Vincenzo Infante; Brian Dale; Marcella Marino; Loredanna Di Matteo; Chiara Campanella

doi:10.1017/S096719940100140X

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

We have used ratiometric confocal microscopy and three fluorescence techniques to study the distribution and activity of mitochondria in frog oocytes during the early stages of oogenesis. Mitochondria in frog oocytes during oogenesis were characterised by a high ratio in the ‘mitochondrial cloud’ and peri-nuclear region and a low ratio in mitochondria freely dispersed within the cytoplasm. We tested whether the high ratio visualised by the three techniques represented mitochondrial membrane potential by perturbing the mitochondrial membrane potential. Carbonyl cyanide p-(trifluoromethyl)phenylhydrazone (FCCP) caused the immediate destruction of the membrane potential, and consequent loss of fluorescence from the membrane-potential-sensitive confocal channel. In contrast, nigericin caused an increase in membrane potential represented by a steady increase in fluorescence ratio. These data demonstrate that mitochondrial activity can be measured during oogenesis in frog oocytes, and suggest that the mitochondrial cloud and perinuclear regions are characterised by highly active mitochondria.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Torner, H Brüssow, K.-P Alm, H Ratky, J Pöhland, R Tuchscherer, A and Kanitz, W 2004. Mitochondrial aggregation patterns and activity in porcine oocytes and apoptosis in surrounding cumulus cells depends on the stage of pre-ovulatory maturation. Theriogenology, Vol. 61, Issue. 9, p. 1675.

Bowles, Emma J. Campbell, Keith H.S. and St. John, Justin C. 2007. The Mitochondrion in the Germline and Early Development. Vol. 77, Issue. , p. 251.

Torner, H Alm, H Kanitz, W Goellnitz, K Becker, F Poehland, R Bruessow, K‐P and Tuchscherer, A 2007. Effect of Initial Cumulus Morphology on Meiotic Dynamic and Status of Mitochondria in Horse Oocytes during IVM. Reproduction in Domestic Animals, Vol. 42, Issue. 2, p. 176.

Coffman, James A. and Denegre, James M. 2007. Mitochondria, redox signaling and axis specification in metazoan embryos. Developmental Biology, Vol. 308, Issue. 2, p. 266.

Zhang, Yong‐Zhong Ouyang, Ying‐Chun Hou, Yi Schatten, Heide Chen, Da‐Yuan and Sun, Qing‐Yuan 2008. Mitochondrial behavior during oogenesis in zebrafish: A confocal microscopy analysis. Development, Growth & Differentiation, Vol. 50, Issue. 3, p. 189.

Zampolla, T. Zhang, T. Holt, W.V. and Rawson, D.M. 2009. Distributional arrangement of mitochondria in the granulosa cells surrounding stage III zebrafish (Danio rerio) oocytes. Theriogenology, Vol. 72, Issue. 1, p. 111.

Vaccaro, M.C. Gigliotti, S. Graziani, F. Carotenuto, R. De Angelis, C. Tussellino, M. and Campanella, C. 2010. A transient asymmetric distribution of XNOA 36 mRNA and the associated spectrin network bisects Xenopus laevis stage I oocytes along the future A/V axis. European Journal of Cell Biology, Vol. 89, Issue. 7, p. 525.

Egerszegi, István Alm, Hannelore Rátky, József Heleil, Bassiouni Brüssow, Klaus-Peter and Torner, Helmut 2010. Meiotic progression, mitochondrial features and fertilisation characteristics of porcine oocytes with different G6PDH activities. Reproduction, Fertility and Development, Vol. 22, Issue. 5, p. 830.

Selvaggi, Lara Salemme, Marinella Vaccaro, Carmen Pesce, Giuseppe Rusciano, Giulia Sasso, Antonio Campanella, Chiara and Carotenuto, Rosa 2010. Multiple-Particle-Tracking to investigate viscoelastic properties in living cells. Methods, Vol. 51, Issue. 1, p. 20.

Marlow, Florence L. 2010. Maternal Control of Development in Vertebrates . Colloquium Series on Developmental Biology, Vol. 1, Issue. 1, p. 1.

Zampolla, T. Spikings, E. Rawson, D. and Zhang, T. 2011. Cytoskeleton proteins F-actin and tubulin distribution and interaction with mitochondria in the granulosa cells surrounding stage III zebrafish (Danio rerio) oocytes. Theriogenology, Vol. 76, Issue. 6, p. 1110.

Vaccaro, M.C. Wilding, M. Dale, B. Campanella, C. and Carotenuto, R. 2012. Expression of XNOA 36 in the mitochondrial cloud ofXenopus laevisoocytes. Zygote, Vol. 20, Issue. 3, p. 237.

Ramalho-Santos, João and Amaral, Sandra 2013. Mitochondria and mammalian reproduction. Molecular and Cellular Endocrinology, Vol. 379, Issue. 1-2, p. 74.

LEE, Seul-Ki ZHAO, Ming-Hui KWON, Jung-Woo LI, Ying-Hua LIN, Zi-Li JIN, Yong-Xun KIM, Nam-Hyung and CUI, Xiang-Shun 2014. The Association of Mitochondrial Potential and Copy Number with Pig Oocyte Maturation and Developmental Potential. Journal of Reproduction and Development, Vol. 60, Issue. 2, p. 128.

Bezzaouia, Amina Gallo, Alessandra Silvestre, Francesco Tekaya, Saïda and Tosti, Elisabetta 2014. Distribution pattern and activity of mitochondria during oocyte growth and maturation in the ascidianStyela plicata. Zygote, Vol. 22, Issue. 4, p. 462.

Milani, Liliana and Ghiselli, Fabrizio 2015. Mitochondrial activity in gametes and transmission of viable mtDNA. Biology Direct, Vol. 10, Issue. 1,

Milani, Liliana 2015. Mitochondrial membrane potential: a trait involved in organelle inheritance?. Biology Letters, Vol. 11, Issue. 10,

Faron, Justyna Bernaś, Tytus Sas–Nowosielska, Hanna Klag, Jerzy and Ariga, Hiroyoshi 2015. Analysis of the Behavior of Mitochondria in the Ovaries of the Earthworm Dendrobaena veneta Rosa 1839. PLOS ONE, Vol. 10, Issue. 2, p. e0117187.

Bilinski, Szczepan M. Kloc, Malgorzata and Tworzydlo, Waclaw 2017. Selection of mitochondria in female germline cells: is Balbiani body implicated in this process?. Journal of Assisted Reproduction and Genetics, Vol. 34, Issue. 11, p. 1405.

Agnello, Maria Roccheri, Maria Carmela Morici, Giovanni and Rinaldi, Anna Maria 2017. Mitochondria during sea urchin oogenesis. Zygote, Vol. 25, Issue. 2, p. 205.

Download full list

Article contents

Confocal microscopy analysis of the activity of mitochondria contained within the ‘mitochondrial cloud’ during oogenesis in Xenopus laevis

Abstract

Keywords

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Confocal microscopy analysis of the activity of mitochondria contained within the ‘mitochondrial cloud’ during oogenesis in Xenopus laevis

Abstract

Keywords

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests