Bovine non-competent oocytes (BCB–) negatively impact the capacity of competent (BCB+) oocytes to undergo <span class="italic">in vitro</span> maturation, fertilisation and embryonic development

M.B. Salviano; F.J.F. Collares; B.S. Becker; B.A. Rodrigues; J.L. Rodrigues

doi:10.1017/S0967199415000118

- Aa
- Aa

Cited by 6
Cited by
- 6
Crossref Citations

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

Duarte Alcoba, Diego Gonsales Valério, Edimárlei Conzatti, Maiara Schneider, Júlia Capp, Edison von Eye Corleta, Helena and Brum, Ilma Simoni 2018. Selection of developmentally competent human oocytes aspirated during cesarean section. The Journal of Maternal-Fetal & Neonatal Medicine, Vol. 31, Issue. 6, p. 735.

CrossRef

Google Scholar

Kumar, Sandeep Kumar, Manish Dholpuria, Sunny Sarwalia, Parul Batra, Vipul De, Sachinandan Kumar, Rakesh and Datta, Tirtha Kumar 2018. Transient Arrest of Germinal Vesicle Breakdown Improved In Vitro Development Potential of Buffalo (Bubalus Bubalis) Oocytes. Journal of Cellular Biochemistry, Vol. 119, Issue. 1, p. 278.

CrossRef

Google Scholar

Liu, Xiao-Man Wang, Yan-Kui Liu, Yun-Hua Yu, Xiao-Xia Wang, Pei-Chao Li, Xuan Du, Zhi-Qiang and Yang, Cai-Xia 2018. Single-cell transcriptome sequencing reveals that cell division cycle 5-like protein is essential for porcine oocyte maturation. Journal of Biological Chemistry, Vol. 293, Issue. 5, p. 1767.

CrossRef

Google Scholar

Alcoba, Diego Duarte Schneider, Júlia Arruda, Letícia Martiny, Patrícia Borba Capp, Edison von Eye Corleta, Helena and Brum, Ilma Simoni 2017. Brilliant cresyl blue staining does not present cytotoxic effects on human luteinized follicular cells, according to gene/protein expression, as well as to cytotoxicity tests. Reproductive Biology, Vol. 17, Issue. 1, p. 60.

CrossRef

Google Scholar

Zare, Zohreh Abouhamzeh, Beheshteh Masteri Farahani, Reza Salehi, Mohammad and Mohammadi, Moslem 2017. Supplementation of L-carnitine during in vitro maturation of mouse oocytes affects expression of genes involved in oocyte and embryo competence:An experimental study. International Journal of Reproductive BioMedicine, Vol. 15, Issue. 12, p. 779.

CrossRef

Google Scholar

Yang, Min Hall, Justin Fan, Zhiqiang Regouski, Misha Meng, Qinggang Rutigliano, Heloisa M. Stott, Rusty Rood, Kerry A. Panter, Kip E. and Polejaeva, Irina A. 2016. Oocytes from small and large follicles exhibit similar development competence following goat cloning despite their differences in meiotic and cytoplasmic maturation. Theriogenology, Vol. 86, Issue. 9, p. 2302.

CrossRef

Google Scholar

Google Scholar Citations

View all Google Scholar citations for this article.

Scopus Citations

View all citations for this article on Scopus
×

Volume 24, Issue 2
April 2016 , pp. 245-251

Bovine non-competent oocytes (BCB–) negatively impact the capacity of competent (BCB+) oocytes to undergo in vitro maturation, fertilisation and embryonic development

M.B. Salviano ^(a1), F.J.F. Collares ^(a1), B.S. Becker ^(a1), B.A. Rodrigues ^(a1) and J.L. Rodrigues ^(a2)...

- https://doi.org/10.1017/S0967199415000118
- Published online: 06 May 2015

Summary

Competent oocyte selection remains a bottleneck in the in vitro production (IVP) of mammalian embryos. Among the vital assays described for selecting competent oocytes for IVP, the brilliant cresyl blue (BCB) test has shown consistent results. The aim of the first experiment was to observe if oocytes directly submitted to IVM show similar cleavage and blastocyst rates as those obtained with oocytes maintained under the same in vitro conditions as the oocytes that undergo the BCB test. Bovine cumulus–oocyte complexes (COCs) were recovered from slaughterhouse-derived ovaries and, after morphological evaluation, were randomised grouped into three groups: (1) directly submitted to IVM; (2) oocytes submitted to the BCB test without the addition of BCB stain (BCB control group); and (3) submitted to the BCB test. The results showed that oocytes directly submitted to IVM reached similar cleavage (48/80 – 60%) and embryonic development rates to the blastocyst stage (10/48 – 21%) as the results obtained with the BCB control group oocytes (45/77 – 58% and 08/45 – 18%, respectively). The aim of the second experiment was to determine the cleavage and blastocyst rates obtained from BCB+ oocytes undergoing IVM in the presence of BCB– oocytes at a ratio of 10:1. COCs were recovered from slaughterhouse-derived ovaries and, after morphological evaluation, were randomised into two groups that were submitted to IVM either directly (1: control group) or submitted to the BCB test prior to IVM. After the BCB test, the COCs were classified as either BCB+ (blue cytoplasm) or BCB– (colourless cytoplasm) and then divided into four experimental groups: (2) BCB+; (3) BCB–; and (4) BCB+ matured in same IVM medium drop as (5) BCB– at a ratio of 10:1. After IVM (24 h), oocytes from the different experimental groups were submitted to in vitro fertilisation (IVF) and in vitro culture (IVC) under the same culture conditions until they reached the blastocyst stage (D7). With regards to the cleavage rate (48 h after IVF), only group 3 (102/229 – 44%) differed (P < 0.05) from the other groups [1 (145/241 – 60%); 2 (150/225 – 67%); 4 (201/318 – 63%) and 5 (21/33 – 63%)]. On day 7, the embryos from group 2 (BCB+) achieved the highest blastocyst rate (46/150 – 31%) (P < 0.05) when compared with the embryo development capacity of the other experimental groups (1: 31/145 – 21%; group 3: 17/102 – 17%; group 4: 46/201 – 23%; and group 5: 2/21 – 10%). In conclusion, submitting BCB+ oocytes that were separated from BCB– oocytes to IVM increases the rate of embryonic development to the blastocyst stage when compared to the control group, BCB– oocyte group, BCB+ paracrine group and BCB– paracrine group. The presence of non-competent oocytes during IVM, even in low proportion (1:10), reduces the capacity of competent oocytes to undergo embryo development and achieve blastocyst stage during IVC.

Export citation

Request permission

Copyright

COPYRIGHT: © Cambridge University Press 2015

Corresponding author

All correspondence to José Luiz Rigo Rodrigues. Laboratory of Embryology and Biotechniques of Reproduction, Faculty of Veterinary Medicine, UFRGS, Cx. Postal 15004, 91501–970 Porto Alegre, RS, Brasil. Tel: +55 51 33086126. E-mail: joseluiz.rodrigues@ufrgs.br

References

Hide All

Alcoba, D.D., Braga, B.L.R., Sandi-Monroy, N.L., Proença, L.A., Lopes, R.F.F. & Oliveira, A.T.D. (2011). Selection of Rattus norvegicus oocytes for in vitro maturation by brilliant cresyl blue staining. Zygote 21, 238–45.

Alm, H., Torner, H., Lohrke, B., Viergutz, T., Ghoneim, I.M. & Kanitz, W. (2005). Bovine blastocyst development rate in vitro is influenced by selection of oocytes by brilliant cresyl blue staining before IVM as indicator for glucose-6-phosphate dehydrogenase activity. Theriogenology 63, 2194–205.

Blanco, M.R., Demyda, S., Moreno Millán, M. & Genero, E. (2011). Developmental competence of in vivo and in vitro matured oocytes: a review. Biotechnol. Mol. Biol. Rev. 6, 155–65.

Bols, P.E.J., Jorssen, E.P.A., Goovaerts, I.G.F., Langbeen, A. & Leroy, J.L.M.R. (2012). High throughput non-invasive oocyte quality assessment: the search continues Anim. Reprod. 9, 420–25.

Boni, R. (2012) Origins and effects of oocyte quality in cattle. Anim. Reprod. 9, 333–40.

Brevini-Gandolfi, T. & Gandolfi, F. (2001). The maternal legacy to the embryo: Cytoplasmic components and their effects on early development. Theriogenology 55, 1255–76.

Bukowska, D., Kempisty, B., Piotrowska, H., Walczak, R., Sniadek, P., Dziuban, J., Brussowm, K.P., Jaskowski, J.M. & Nowicki, M. (2011) The invasive and new non-invasive methods of mammalian oocyte and embryo quality assessment: a review. Veterinarni Medicina 57, 169–76.

Camargo, L.S.A., Viana, J.H.M., Sá, W.F., Ferreira, A.M., Ramos, A.A. & Vale Filho, V.R. (2006) Factors influencing in vitro embryo production. Anim. Reprod. 3, 19–28.

Castaneda, C.A., Kaye, P., Pantaleon, M., Phillips, N., Norman, S., Fry, R. & D´Occhio, M.J. (2013) Lipid content, active mitochondria and brilliant cresyl staining in bovine oocytes. Theriogenology 79, 417–22.

Catalá, M.G., Izquierdo, D., Uzbekova, S., Morató, R., Roura, M., Romaguera, R., Papillier, P. & Paramio, M.T. (2011). Brilliant cresyl blue stain selects largest oocytes with highest mitochondrial activity, maturation-promoting factor activity and embryo developmental competence in prepubertal sheep. Reproduction 142, 517–27.

Ericsson, S.A., Boice, M.L., Funahashi, H. & Day, B.N. (1993). Assessment of porcine oocytes using brilliant cresyl blue. Theriogenology 39, 214.

Fair, T. (2010). Mammalian oocyte development: checkpoints for competence. Reprod. Fertil. Dev. 22, 13–20.

Ferreira, E.M., Vireque, A.A., Adona, P.R., Meirelles, F.V., Ferriani, R.A. & Navarro, P.A.A.S. (2009). Cytoplasmic maturation of bovine oocytes: Structural and biochemical modifications and acquisition of developmental competence. Theriogenology 71, 836–48.

Gutnisky, C., Dalvit, G.C., Thompson, J.G. & Cetica, P.D. (2013) Pentose phosphate pathway activity: Effect on in vitro maturation and oxidative status of bovine oocytes. Reprod. Fertil. Dev. 25, 1026–35.

Hussein, T. S., Thompson, J.G. & Gilchrist, , , R.B. (2006) Oocyte-secreted factors enhance oocyte developmental competence. Dev. Biol. 296, 514–21.

Janowski, D., Salilew-Wondim, D., Torner, H., Tesfaye, D., Ghanem, N., Tomek, W., El-Sayed, A., Schellander, K. & Hölker, M. (2012). Incidence of apoptosis with transcript abundance in bovine follicular cells is associated with quality of the enclosed oocyte. Theriogenology 78, 656–69.

Leibfried, L. & First, N.L. (1979). Characterization of bovine follicular oocytes and theur ability to mature in vitro . J. Anim. Sci. 48, 76–86.

Lonergan, P. & Fair, T. (2014). The ART of studying early embryo development: Progress and challenges in ruminant embryo culture. Theriogenology 81, 49–55.

Manjunatha, B.M., Gupta, P.S.P., Devaraj, M., Ravindra, J.P. & Nandi, S. (2007). Selection of developmentally competent buffalo oocytes by brilliant cresyl blue staining before IVM. Theriogenology 68, 1299–304.

Meirelles, F.V., Chiaratti, M.R., Ferreira, R.M., Meirelles, F.D.P. & Bressan, F.F. (2013). Strategies to increase in vitro embryo yield: Lesson from cell and molecular research. Anim. Reprod. 10, 302–10.

Mirshamsi, S.M., Karami Shabankareh, H., Ahmadi-Hamedani, M., Soltani, L., Hajarian, H. & Abdolmohammadi, A.R. (2013) Combination of oocyte and zygote selection by brilliant cresyl blue (BCB) test enhanced prediction of developmental potential to the blastocyst in cattle. Anim. Reprod. Sci. 136, 245–51.

Opiela, J. & Katska-Ksiazkiewicz, L. (2013) The utility of brilliant cresyl blue (BCB) staining of mammalian oocytes used for in vitro embryo production (IVP). Reprod. Biol. 13, 177–83.

Opiela, J., Katska-Ksiazkiewicz, L., Lipinski, D., Słomski, R., Bzowska, M. & Rynska, B. (2008) Interactions among activity of glucose cose-6-phosphate dehydrogenase in immature oocytes, expression of apoptosis-related genes Bcl-2 and Bax, and developmental competence following IVP in cattle. Theriogenology 69, 546–55.

Pujol, M., López-Béjar, M. & Paramio, M.T. (2004). Developmental competence of heifer oocytes selected using the brilliant cresyl blue (BCB) test. Theriogenology 61, 735–44.

Rodrigues, B.A., Rodriguez, P., Silva, A.E.F., Cavalcante, L.F., Feltrin, C. & Rodrigues, J.L. (2009). Preliminary study in immature canine oocytes stained with brilliant cresyl blue. Reprod. Domest. Anim. 44, 255–58.

Rodríguez-González, E., López-Béjar, M., Izquierdo, D. & Paramio, M.T. (2003). Developmental competence of prepubertal goat oocytes selected with brilliant cresyl blue and matured with cysteamine supplementation. Reprod. Nutr. Dev. 43, 179–87.

Salamone, D.F., Damiani, P., Fissore, R.A., Robl, J.M. & Duby, R.T. (2001). Biochemical and developmental evidence that ooplasmic maturation of prepubertal bovine oocytes is compromised. Biol. Reprod. 64, 1761–8.

Silva, D.S., Rodriguez, P., Galuppo, A., Arruda, N.S. & Rodrigues, J.L. (2011). Selection of bovine oocytes by brilliant cresyl blue staining: effect on meiosis progression, organelle distribution and embryo development. Zygote 21, 250–55.

Suttom, M.L., Cetica, P.D., Beconi, M.T., Kind, K.L., Gilchrist, R.B. & Thompson, J.G. (2003). Influence of oocyte-secreted factors and culture duration on the metabolic activity of bovine cumulus cell complexes. Reproduction 126, 27–34.

Vassena, R., Mapletoft, R.J., Allodi, S., Singh, K. & Adams, G.P. (2003). Morphology and developmental competence of bovine oocytes relative to follicular status. Theriogenology 60, 923–932.

Wang, L., Lin, J., Huang, J., Wang, J., Zhao, Y. & Chen, T. (2012). Selection of ovine oocytes by brilliant cresyl blue staining. J. Biomed. Biotechnol. 2012, 1–7.

Warzych, E., Pers-Kamczyc, E., Krzywak, A., Dudzinska, S. & Lechniak, D. (2013). Apoptotic index within cumulus of bovine oocytes matured in vitro . Reprod. Biol. 3, 82–7.

Zeuner, A., Müller, K., Reguszynski, K. & Jewgenow, K. (2003). Apoptosis within bovine follicular cells and its effect on oocyte development during in vitro maturation. Theriogenology 59, 1421–33.

Metrics

Full text views

Total number of HTML views: 6

Total number of PDF views: 57 *

Loading metrics...

Abstract views

Total abstract views: 381 *

Loading metrics...

* Views captured on Cambridge Core between September 2016 - 12th June 2018. This data will be updated every 24 hours.

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

Bovine non-competent oocytes (BCB–) negatively impact the capacity of competent (BCB+) oocytes to undergo in vitro maturation, fertilisation and embryonic development

CAPTCHA *

Keywords:

Metrics

Full text views Full text views reflects the number of PDF downloads, PDFs sent to Google Drive, Dropbox and Kindle and HTML full text views.

Abstract views Abstract views reflect the number of visits to the article landing page.

Full text views

Abstract views