Your search keyword '"Colombo, Martina"' showing total 8 results

1. Microenvironment factors promoting the quality of vitrified cat oocytes.

Author

Colombo, Martina, Alkali, Isa Mohammed, and Luvoni, Gaia Cecilia

Subjects

*GERMINAL vesicles, *ZONA pellucida, *SPINDLE apparatus, *CATS, *GAMETES, *OVUM, *CELL culture

Abstract

In oocyte cryopreservation programs, vitrification has overthrown conventional slow freezing both in veterinary and human medicine. In animals, its feasibility in field conditions makes it the preferred technique for the safeguard of genetic resources from zoo or wild animals, including threatened felids, for which the domestic cat is an excellent model. However, many cellular injuries, such as cytoskeleton, mitochondria and meiotic spindle alterations, DNA damage, zona pellucida hardening and cumulus cell loss, might occur following vitrification. After warming, although the exact mechanisms are still unclear, degeneration is a frequent outcome for cat vitrified oocytes. For immature (germinal vesicle) gametes, in vitro maturation after warming is a challenge, and cleavage after fertilization barely reaches 15–30%, while for mature (metaphase II) cryopreserved gametes it can get to 30–50%. Anyway, the progression to late embryos stages is often impaired, and improvements are needed. Standard cryopreservation protocol and the use of conventional in vitro culture systems after warming may not be enough for vitrified oocytes to recover and demonstrate their full developmental potential. Physical or chemical factors applied to oocytes undergoing vitrification, as an enrichment to the vitrification step, or to the culture microenvironment, could create more favorable conditions and promote vitrified oocyte survival and development. From the use of three-dimensional culture systems to the regulation of metabolic activities and cellular pathways, this review aims to explore all the possibilities employed so far, including the studies performed by our own lab, and the future perspectives, to present the most effective strategies for cat oocyte vitrification and the best time for their application (i.e., before, during, or after vitrification-warming). • Oocyte cryopreservation in domestic cat as a model for wild endangered felids. • Vitrification is the most used cryopreservation technique for feline oocytes. • Results of vitrification are still suboptimal, especially for immature oocytes. • Review of ameliorative strategies employed so far for cat oocyte vitrification. • Factors applied before, during, or after vitrification-warming. [ABSTRACT FROM AUTHOR]

Published

2023

2. Ovary cold storage and shipment affect oocyte yield and cleavage rate of cat immature vitrified oocytes.

Author

Colombo, Martina, Zahmel, Jennifer, Binder, Claudia, Herbel, Johannes, Luvoni, Gaia Cecilia, and Jewgenow, Katarina

Subjects

*OVUM, *OVARIES, *COLD storage, *CATS, *GAMETES, *GONADS

Abstract

In feline species, cooled transport of ovaries can be employed without detrimental effects to retrieve immature oocytes intended for in vitro embryo production purposes. Indeed, this is the most common way to collect gametes from gonads of wild, valuable animals after they die or are castrated far from specialized laboratories. However, fresh retrieved gametes are generally used, and their cryosensitivity is not known. This study employed ovariectomy-derived domestic cat gonads as a model for wild felids, and aimed to compare the yield and developmental competence of Cryotop-vitrified oocytes (VOs) collected and cryopreserved right after ovary excision (In loco -VOs) or after 24 h cooled transport of ovaries (Shipped-VOs). The number of collected oocytes was higher in In loco -VOs than in Shipped-VOs (mean ± SD: 8 ± 3.36 vs 5.6 ± 3.1, p = 0.05). In vitro embryo production resulted in similar maturation (35% for both vitrified groups, p = 1) and fertilization rates (In loco -VOs: 29.1%; Shipped-VOs: 22.2%; p = 0.295), but showed a difference in cleavage (In loco -VOs: 25.6%; Shipped-VOs: 14.5%; p = 0.0495). No differences were found in further embryo development. Taken together, results suggested that delayed oocyte vitrification after cooled transport of organs was feasible and allowed embryo development. However, the number of collected oocytes and the cleavage rate of matured oocytes were higher when oocyte vitrification was performed without delay after ovary excision, and this should be considered in gamete conservation programs for endangered felids. • Oocyte vitrification after cooled transport of ovaries allowed embryo development. • After ovary transport, retrieved oocytes were fewer than at ovary excision. • In vitro maturation of vitrified oocytes was not influenced by ovary transport. • Cleavage was lower in oocytes vitrified after ovaries cooled transport. [ABSTRACT FROM AUTHOR]

Published

2021

3. Granulosa cells in three‐dimensional culture: A follicle‐like structure for domestic cat vitrified oocytes.

Author

Colombo, Martina, Morselli, Maria Giorgia, Apparicio, Maricy, and Luvoni, Gaia Cecilia

Subjects

*GRANULOSA cells, *OVUM, *CATS, *CELL culture, *FERTILITY preservation

Abstract

Follicle‐like structures are three‐dimensional matrices joint with living cells that allow the in vitro development of female gametes in more physiological conditions. They have been shown to be beneficial to fresh oocytes in different species, and in this study, domestic cat (Felis silvestris catus) granulosa cells were used to create a functional follicle‐like structure aimed at supporting the in vitro maturation of conspecific vitrified oocytes, key players of fertility preservation programmes that usually struggle to acquire their full developmental competence after warming. Cat granulosa cells were cultured for up to 6 days in three‐dimensional barium alginate microcapsules (i.e. follicle‐like structures) or in two‐dimensional monolayers, and their steroidogenic ability (estradiol and progesterone secretion) was assessed to confirm their functionality. The same systems were used (on day 2 or 6 of granulosa cells culture) for the in vitro maturation (IVM) of Cryotop® vitrified immature cat oocytes and compared with microdrops of IVM medium without cells (control). Granulosa cells were able to maintain their functionality in vitro in both the conditions, even if with a different extent of hormonal secretion along culture (p =.02). Vitrified oocytes resumed meiosis at higher rates when cultured with 2 days old granulosa cells (p =.03), but full maturation rates slightly raised when granulosa cells were cultured longer, albeit without differences with the control group. This study paved the road for the creation of enriched culture systems in the domestic cat, but innovations are strongly needed for vitrified oocytes that deserve better chances to develop in vitro. [ABSTRACT FROM AUTHOR]

Published

2020

4. The never‐ending search of an ideal culture system for domestic cat oocytes and embryos.

Author

Luvoni, Gaia Cecilia, Colombo, Martina, and Morselli, Maria Giorgia

Subjects

*CATS, *FERTILIZATION in vitro, *EMBRYOS, *OVUM, *HAIR follicles

Abstract

Contents: In the domestic cat, in vitro fertilization started 40 years ago, but an ideal culture system has yet to be achieved. The physiological microenvironments, which interact with oocytes and embryos promoting their competence, have been investigated. However, recreating in vitro follicle‐ and oviduct‐like conditions is challenging and a matter of both chemistry and physics. This review presents an excursus of the experimental investigations focused on the improvement of feline oocytes and embryos culture through the modulation of chemical and physical factors. Medium supplementation with components of follicular and oviductal fluids, or the use of different co‐cultures, supports or substrata have been considered. Innovative and sophisticated systems as "organ‐on‐a‐chip" might lead to the creation of artificial follicles and oviducts and they may represent the ideal combination of chemical and physical factors. Will the search ever end? [ABSTRACT FROM AUTHOR]

Published

2018

5. Nuclear competence and genetic expression of growth differentiation factor‐9 (GDF‐9) of canine oocytes in 3D culture.

Author

Morselli, Maria Giorgia, Loiacono, Monica, Colombo, Martina, Mortarino, Michele, and Luvoni, Gaia Cecilia

Subjects

GENE expression, MYOSTATIN, MOLECULAR capsules, MEIOSIS, OVUM

Abstract

To evaluate the ability of a 3D culture system in improving the nuclear and molecular competence of canine oocytes, barium alginate microcapsules were used for in vitro maturation (IVM) and the expression profile of one selected oocyte‐secreted factor, the growth differentiation factor‐9 (GDF‐9) was analysed. In Experiment I, canine grade I cumulus–oocyte complexes (COCs) were in vitro matured in 3D microcapsules in a controlled atmosphere for 72 hr, and meiosis resumption rates were compared to those of oocytes cultured in traditional 2D microdrops of medium. In Experiment II, a primer pair specific for canine GDF‐9 was designed, and preliminary tested in conventional PCR on genomic DNA. Total RNA content was isolated from oocytes at different time intervals (T0‐T24‐T48‐T72) during in vitro 3D culture, and a reverse transcription to cDNA was performed. The expression of target gene was assessed by quantitative Reverse Transcription Real‐Time PCR (qRT‐PCR), and the obtained amplicons were sequenced to check the specificity of the analysis. Canine COCs resumed meiosis at higher rates in 3D microcapsules than in 2D microdrops (p < 0.05), even though no significant differences in the proportions of oocytes achieving full maturational stages were obtained. A significant dynamic decrease in GDF‐9 expression was recorded during culture: after 72 hr of IVM, the GDF‐9 transcription significantly dropped (p = 0.018) compared to 24 and 48 hr. In conclusion, in vitro 3D culture represents an efficient system for IVM of canine oocytes, and the expression profile of GDF‐9 well reflects temporal dynamics for the acquisition of developmental competence in this species. [ABSTRACT FROM AUTHOR]

Published

2018

6. Fighting Like Cats and Dogs: Challenges in Domestic Carnivore Oocyte Development and Promises of Innovative Culture Systems.

Author

Colombo, Martina, Alkali, Isa Mohammed, Prochowska, Sylwia, and Luvoni, Gaia Cecilia

Subjects

*DOGS, *OVUM, *GERM cells, *REPRODUCTIVE technology, *GLASS-reinforced plastics, *CARNIVOROUS animals, *OVARIAN follicle, *FELIDAE

Abstract

Simple Summary: In assisted reproduction, in vitro embryo production is the generation of embryos from isolated gametes in an equipped laboratory. This procedure is commonly employed in humans as well as in animals to preserve or improve their fertility, but while it works well in some species, such as cattle, it still faces some challenges in others, such as cats and dogs, which are important animal models to develop assisted reproduction techniques for related wild, endangered species. Traditionally, gametes and embryos are cultured in vitro on glass or plastic dishes, but these supports are very different from the ovarian follicles, the oviducts, or the uterus, which are the physiological environments where oocytes and embryos grow and develop. This review article describes these culture systems, the cellular alterations that could arise from their use, and it illustrates innovative possibilities (e.g., three-dimensional or microfluidic cultures) that could improve the outcomes of in vitro cultured feline and canine reproductive cells. In vitro embryo production in cats and dogs still presents some challenges, and it needs to be optimized to transfer efficient protocols to related wild, endangered species. While the chemical composition of culture media has been the focus of several studies, the importance of culture substrates for oocyte and embryo culture has often been neglected. Traditional in vitro systems, i.e., two-dimensional cultures, do not resemble the physiological environments where cells develop, and they may cause morphological and functional alterations to oocytes and embryos. More modern three-dimensional and microfluidic culture system better mimic the structure and the stimuli found in in vivo conditions, and they could better support the development of oocytes and embryos in vitro, as well as the maintenance of more physiological behaviors. This review describes the different culture systems tested for domestic carnivore reproductive cells along the years, and it summarizes their effects on cultured cells with the purpose of analyzing innovative options to improve in vitro embryo production outcomes. [ABSTRACT FROM AUTHOR]

Published

2021

7. Developmental Competence of Domestic Cat Vitrified Oocytes in 3D Enriched Culture Conditions.

Author

Colombo, Martina, Morselli, Maria Giorgia, Tavares, Mariana Riboli, Apparicio, Maricy, and Luvoni, Gaia Cecilia

Subjects

*CATS, *BOS, *OVUM, *HUMAN fertility, *MICRODROPLETS, *FERTILIZATION in vitro, *DOMESTIC animals

Abstract

Simple Summary: Oocyte vitrification is a cryopreservation method that guarantees the long-term conservation of genetic material and fertility potential in humans and wild or domestic animals. However, in the domestic cat the in vitro embryo development of immature vitrified oocytes is not yet satisfactory. In this study, a three-dimensional (3D) culture system was used for the in vitro embryo production of vitrified oocytes to provide conditions more similar to those of the in vivo microenvironment, and for comparison, control vitrified oocytes were cultured in two-dimensional (2D) conditions. Embryos were cultured for seven days and their development was assessed. The results showed that the 3D enriched culture system was able to sustain the in vitro maturation and the subsequent embryo development of vitrified oocytes, but no differences were found with the 2D system and improvements to enhance the development of vitrified oocytes are still needed. Cryoinjuries severely affect the competence of vitrified oocytes (VOs) to develop into embryos after warming. The use of culture conditions that provide physical and chemical support and resemble the in vivo microenvironment in which oocytes develop, such as 3D scaffolds and coculture systems, might be useful to improve VOs outcomes. In this study, an enriched culture system of 3D barium alginate microcapsules was employed for the in vitro embryo production of domestic cat VOs. Cryotop vitrified-warmed oocytes were in vitro matured for 24 h in the 3D system with or without fresh cumulus-oocyte complexes (COCs) in coculture, whereas a control group of VOs was cultured in traditional 2D microdrops of medium. After in vitro fertilization, presumptive embryos were cultured in 3D or 2D systems according to the maturation conditions. Vitrified oocytes were able to mature and develop into embryos in 3D microcapsules (17.42 ± 11.83%) as well as in 2D microdrops (14.96 ± 8.80%), but the coculture with companion COCs in 3D resulted in similar proportions of VOs embryo development (18.39 ± 16.67%; p = 1.00), although COCs presence allowed for blastocyst formation (0.95 ± 2.52%). In conclusion, embryos until late developmental stages were obtained from cat VOs, and 3D microcapsules were comparable to 2D microdrops, but improvements in post-warming conditions are still needed. [ABSTRACT FROM AUTHOR]

Published

2019

8. Progress toward species-tailored prematuration approaches in carnivores.

Author

Luciano, Alberto Maria, Franciosi, Federica, Dey, Pritha, Ladron De Guevara, Magdalena, Monferini, Noemi, Bonumallu, Sai Kamal Nag, Musmeci, Giulia, Fagali Franchi, Fernanda, Garcia Barros, Rodrigo, Colombo, Martina, and Lodde, Valentina

Subjects

*REPRODUCTIVE technology, *CARNIVOROUS animals, *PROOF of concept, *REPRODUCTIVE health, *OVARIES, *OVUM, *CHROMATIN

Abstract

In the past four decades, the bovine model has been highly informative and inspiring to assisted reproductive technologies (ART) in other species. Most of the recent advances in ART have come from studies in cattle, particularly those unveiling the importance of several processes that must be recapitulated in vitro to ensure the proper development of the oocyte. The maintenance of structural and functional communications between the cumulus cells and the oocyte and a well-orchestrated chromatin remodeling with the gradual silencing of transcriptional activity represent essential processes for the progressive acquisition of oocyte developmental competence. These markers are now considered the milestones of physiological approaches to increase the efficiency of reproductive technologies. Different in vitro approaches have been proposed. In particular, the so-called "pre-IVM" or "prematuration" is a culture step performed before in vitro maturation (IVM) to support the completion of the oocyte differentiation process. Although these attempts only partially improved the embryo quality and yield, they currently represent a proof of principle that oocytes retrieved from an ovary or an ovarian batch shouldn't be treated as a whole and that tailored approaches can be developed for culturing competent oocytes in several species, including humans. An advancement in ART's efficiency would be desirable in carnivores, where the success is still limited. Since the progress in reproductive medicine has often come from comparative studies, this review highlights aspects that have been critical in other species and how they may be extended to carnivores. • Four decades of bovine ARTs have been highly informative and inspiring to assisted reproduction in other species. • An advancement in ART's efficiency would be desirable in carnivores, where success is still limited. • This review highlights known and unexplored aspects that would be desirable to deepen to extend the prematuration approach to carnivores. [ABSTRACT FROM AUTHOR]

Published

2023