Quantitative and descriptive histological aspects of jaguar (Panthera onca Linnaeus, 1758) ear skin as a step towards formation of biobanks.

Skin of mammals vulnerable to extinction, such as the jaguar, is used as a source of material in conservation strategies. The composition of skin is not uniform among species, and the ability to distinguish similarities in skin morphology in animal groups is fundamental in the application of skin tissue for use in biobanks. The aim of our study was to evaluate the structure, composition and capacity for culture of ear skin from the yellow and black jaguars. Both qualitative and quantitative methods were used, focusing on skin thickness, cell quantification and distribution, collagen density, proliferative activity and viability. Histomorphometrical study of the skin showed a total thickness of 273.2 and 274.6 µm for the yellow and black jaguars, respectively. Melanocytes and fibroblasts were, respectively, 9.7 and 23.0 for the yellow jaguar and 11.3 and 26.8 for the black jaguar. A collagen density of 67.0% and 49.0% was observed for yellow and black jaguars, respectively. Both animals presented a proliferative activity varying between 1.20 and 1.30. All tissues could promote cellular detachment, reaching subconfluence in 10-15 days. This kind of information from histomorphometrical features and cell cultures can be essential for a more targeted application of ear skin cryopreservation in this species, as such information will enable understanding the action of substances on tissues during the conservation process.

In vitro maturation of collared peccary (Pecari tajacu) oocytes after different incubation times / Maturação in vitro de oócitos de cateto (Pecari tajacu) após diferentes períodos de incubação

Oocyte in vitro maturation (IVM) is the first step of the in vitro reproductive technologies that enables mature oocytes to be generated ex vivo and after used for embryo production. In this sense, the establishment of culture environment, as oocyte incubation time, is essential for the success of the IVM. Therefore, the study was carried out to investigate the relationship between the meiotic potential and the IVM times of collared peccary oocytes, wild mammals of great commercial and ecological interest. Thus, ovaries were collected of females derived from captivity and transported to the laboratory within 1 hour of slaughtering. The oocytes derived from follicles (3-6mm in diameter) were recovered by aspirated and sliced. Good quality oocytes (evenly granulated cytoplasm with a least one layer of surrounding cumulus cells) were selected and subjected to culture in TCM 199 supplemented with 10µg/mL FSH, 10% FBS and 100µM cysteamine at 38.5°C, 5% CO2 and maximum humidity for 24 or 48 hours. After the incubation period, the nuclear status, the presence of first polar body and the expansion of cumulus cells of oocytes were assessed. The data obtained were analyzed by Fisher exact test (P<0.05). A total of four sessions (2-3 females per session) were performed, resulting in eighteen aspirated and sliced ovaries with normal morphological characteristics. An oocyte recovery rate of about 83.1% (59/71) was obtained with 3.3 oocytes/ovary and 2.3 viable oocytes/ovary. After different incubation times, differences (P<0.05) were observed in 24 and 48 hours for expansion of the cumulus cells (38.1% vs. 100%), presence of first polar body (52.4% vs. 90.5%) and nuclear status in second metaphase (19.0% vs. 76.2%), respectively. In conclusion, 48 hours is suitable time for the in vitro maturation of oocytes derived from collared peccaries when compared to the time of 24 hours, according to the meiotic potential observed. Additional studies should be conducted to improve the quality of the oocyte culture environment, as medium composition, aiming to obtain viable mature oocytes for other in vitro biotechnologies.(AU)

A maturação in vitro (MIV) oocitária é a primeira etapa das tecnologias reprodutivas in vitro que permite que oócitos maturados sejam gerados ex vivo e depois usados para a produção de embriões. Nesse sentido, o estabelecimento do ambiente de cultivo, como o período de incubação de oócitos, é essencial para o sucesso da MIV. Portanto, o estudo foi realizado para investigar a relação entre o potencial meiótico e os períodos de MIV de oócitos derivados de catetos, mamíferos silvestres de grande interesse comercial e ecológico. Para tanto, os ovários foram coletados de fêmeas derivadas de cativeiro e transportados ao laboratório dentro de 1 h após o abate. Os oócitos derivados de folículos (3-6mm de diâmetro) foram recuperados por aspiração e fatiados. Oócitos de boa qualidade (citoplasma uniformemente granulado com pelo menos uma camada circundante de células cumulus) foram selecionados e submetidos ao cultivo em TCM 199 suplementado com 10µg/mL de FSH, 10% de SFB e 100μM de cisteamina a 38,5°C, 5% de CO2 e umidade máxima por 24 e 48 h. Após o período de incubação, o estado nuclear, a presença do primeiro corpúsculo polar e a expansão das células do cumulus dos oócitos foi avaliada. Os dados obtidos foram analisados pelo teste exato de Fisher (P<0,05). Um total de quatro sessões (2-3 fêmeas por sessão) foi realizado, resultando em dezoito ovários aspirados e fatiados com características morfológicas normais. Uma taxa de recuperação oocitária de aproximadamente 83,1% (59/71) foi obtida com 3,3 oócitos/ovário e 2,3 oócitos viáveis/ovário. Após diferentes períodos de incubação, diferenças (P<0,05) foram observadas entre 24 e 48 h para a expansão das células cumulus (38,1% vs. 100%), presença de primeiro corpúsculo polar (52,4% vs. 90,5%) e estado nuclear na segunda metáfase (19,0% vs. 76,2%), respectivamente. Em conclusão, 48 h é o período adequado para a maturação in vitro de oócitos derivados de catetos quando comparado ao tempo de 24 h, de acordo com o potencial meiótico observado. Estudos adicionais devem ser conduzidos para melhorar a qualidade do ambiente de cultivo oocitário, como a composição de meio, objetivando obter oócitos maturados viáveis para outras biotecnologias in vitro.(AU)

Influence of Cryopreservation Solution on the In Vitro Culture of Skin Tissues Derived from Collared Peccary (Pecari tajacu Linnaeus, 1758).

Skin vitrification is a promising and alternative tool for the conservation of biodiversity, especially for wild mammals, such as collared peccaries. Several factors can affect the success of this procedure, such as the cryoprotectant solution used. Therefore, this study was carried out to compare the efficiency of various vitrification solutions for recovery of viable cells after in vitro culture of cryopreserved skin tissues derived from the collared peccary, aiming to study the application in biobanking, where cellular use is not immediately required. Then, Dulbecco's modified Eagle's medium (DMEM) composed of 2.2 g/L sodium bicarbonate and 10% fetal bovine serum (FBS) was supplemented with 3.0 M ethylene glycol (EG) or 3.0 M dimethyl sulfoxide (DMSO) or 1.5 M EG plus 1.5 M DMSO with or without sucrose (SUC; 0.25 M) to produce six solutions for solid-surface vitrification. After warming, skin tissues were cultured in vitro and recovered cells were analyzed for morphology, adhesion, subconfluence, and proliferative activity for developing the growth curve and determining the population doubling time (PDT), and viability by Trypan Blue. The vitrification did not alter the ability of the tissues to adhere to the culture dish, as well as the day of all explants with cell growth, subconfluence samples, subconfluence total time, and PDT (p > 0.05). Moreover, independent of the cryoprotectant solution used, the vitrification altered the day of all attached explants (p < 0.05). Nevertheless, for viability after the first passage, only the EG-SUC (86.9%) and DMSO-SUC (91.4%) groups maintained viable cell recovery similar to the nonvitrified group (96.3%, p > 0.05). Additionally, for viability after the third passage, only the EG-SUC group maintained the cell quality (88.3%), when compared with the nonvitrified (97.8%, p > 0.05). In conclusion, DMEM with 10% FBS, 3.0 M EG, and 0.25 M sucrose was the most efficient solution for vitrifying collared peccary skin tissues, leading to the in vitro culture of viable cells.

In vitro culture of somatic cells derived from ear tissue of collared peccary (Pecari tajacu Linnaeus, 1758) in medium with different requirements / Cultivo in vitro de células somáticas derivadas de tecido auricular de cateto (Pecari tajacu Linnaeus, 1758) em meio com diferentes requerimentos

The maintenance of metabolic activities during the in vitro culture of somatic cells of wild animals, especially collared peccary (Pecari tajacu), is an interesting step in conservation of these cells for the use in nuclear transfer. In this context, it is necessary to optimize the culture conditions of somatic cells by the establishment of appropriate supplementation to the media. Therefore, this study aimed to analyze the composition of the culture means of somatic cell derived from ear tissue of collared peccaries, evaluating concentrations of fetal bovine serum (FBS; 10% vs. 20%) and epidermal growth factor (EGF; 5ng/mL vs. 10ng/mL). Tissues were submitted to primary culture and subcultures for 40 days and cells were analyzed for morphology, adhesion, subconfluence, and proliferative activity to develop the growth curve and to determine the population doubling time (PDT), viability, and functional/metabolic activity. No difference was observed between the concentrations of FBS for several parameters, except for viability [FBS10: 85.6% vs. FBS20: 98.2%], PDT [FBS10: 155.4h vs. 77.2h], and functional/metabolic assay [FBS10: 0.57-0.55 vs. FBS20: 0.82-0.99 (D5-D7)]. For the EGF in culture, no difference was observed in the evaluated parameters. In all experiments, the growth curves were typical S-shape and the cells passed through a lag, logarithmic, and plateau phase. In conclusion, 20% FBS is suitable for the recovery of somatic cells; nevertheless, EGF does not improve the quality of growing these cells. To our knowledge, this is the first study culturing somatic cells of collared peccaries.(AU)

A manutenção das atividades metabólicas durante o cultivo in vitro de células somáticas de animais silvestres, especialmente cateto (Pecari tajacu), é uma etapa interessante na conservação dessas células para o uso na transferência nuclear. Nesse contexto, é necessário aperfeiçoar as condições de cultivo de células somáticas pelo estabelecimento de suplementações apropriadas aos meios. Portanto, este estudo objetivou analisar a composição dos meios de cultivo de células somáticas derivadas de tecido auricular de catetos, avaliando concentrações de soro fetal bovino (SFB; 10% vs. 20%) e fator de crescimento epidermal (EGF; 5 ng/mL vs. 10 ng/mL). Para tanto, tecidos foram submetidos ao cultivo primário e subcultivos por 40 dias e células foram analisadas por morfologia, adesão, subconfluência, e atividade proliferativa pelo desenvolvimento da curva de crescimento e determinação do time de duplicação da população (PDT), viabilidade, e atividade funcional/metabólica. Nenhuma diferença foi observada entre as concentrações de SFB para os vários parâmetros, exceto para viabilidade [SFB10: 85,6% vs. SFB20: 98,2%], PDT [SFB10: 155,4 h vs. 77,2 h], e atividade funcional/metabólica [SFB10: 0,57-0,55 vs. SFB20: 0,82-0,99 (D5-D7)]. Para o EGF em cultivo, nenhuma diferença foi observada nos parâmetros avaliados. Em todos os experimentos, as curvas de crescimento foram típicas de forma S e as células passaram por uma fase lag, logarítmica e platô. Em conclusão, 20% de SFB é adequado para a recuperação de células somáticas; contudo, EGF não melhora a qualidade de crescimento dessas células. Ao nosso conhecimento, este é o primeiro estudo cultivando células somáticas de catetos.(AU)