Isolation and characterization of the human ovarian cell population for transplantation into an artificial ovary

To support survival and growth of follicles, the transplantable artificial ovary should mimic the original organ, offering a physical (3D matrix) and biological support (cells). In order to replicate the ovarian cell populations, the aim of this study is to assess the proportions of stromal and endothelial cells in the ovarian cortex. To this end, ovarian biopsies were obtained from six women (mean age: 49 years). The epithelial layer and medulla were carefully removed. The cortex was finely minced and enzymatically digested and the isolated cells were fixed. For cell characterization, immunostaining for CD31 (for endothelial cells) and inhibin-α (for granulosa cells) was performed. Positive cells in each staining were counted and the proportion of the different cell populations was estimated from the total number of isolated cells. Since there is no specific marker for ovarian stromal cells, we estimated the proportion of these cells by performing a vimentin immunostaining and subtracting the proportions of CD31- and inhibin-α-positive cells. Immunostaining showed that 84% of isolated cells were vimentin-positive. From this pool, 3% were endothelial cells and 1% granulosa cells. Consequently, the population of ovarian stromal cells was 80%. In conclusion, our findings show that stromal cells represent the larger population of cells in the human ovarian cortex. While this ensures follicle survival and development in a normal ovary, we believe that the low proportion of endothelial cells could have a negative impact on the angiogenesis in the artificial ovary after the first days of transplantation.

Isolation and characterization of the human ovarian cell population for transplantation into an artificial ovary

To support survival and growth of follicles, the transplantable artificial ovary should mimic the original organ, offering a physical (3D matrix) and biological support (cells). In order to replicate the ovarian cell populations, the aim of this study is to assess the proportions of stromal and endothelial cells in the ovarian cortex. To this end, ovarian biopsies were obtained from six women (mean age: 49 years). The epithelial layer and medulla were carefully removed. The cortex was finely minced and enzymatically digested and the isolated cells were fixed. For cell characterization, immunostaining for CD31 (for endothelial cells) and inhibin-α (for granulosa cells) was performed. Positive cells in each staining were counted and the proportion of the different cell populations was estimated from the total number of isolated cells. Since there is no specific marker for ovarian stromal cells, we estimated the proportion of these cells by performing a vimentin immunostaining and subtracting the proportions of CD31- and inhibin-α-positive cells. Immunostaining showed that 84% of isolated cells were vimentin-positive. From this pool, 3% were endothelial cells and 1% granulosa cells. Consequently, the population of ovarian stromal cells was 80%. In conclusion, our findings show that stromal cells represent the larger population of cells in the human ovarian cortex. While this ensures follicle survival and development in a normal ovary, we believe that the low proportion of endothelial cells could have a negative impact on the angiogenesis in the artificial ovary after the first days of transplantation.(AU)

Comparação de dois métodos de colheita de medula óssea de equinos e de dois meios de diluição para o isolamento de células mononucleares / Comparison of two methods of equine bone marrow aspiration and two solutions for mononuclear cell isolation

O objetivo do presente estudo foi avaliar a concentração e viabilidade da fração de células mononucleares (FCM) a partir de diferentes técnicas de colheita e processamento de medula óssea (MO) em equinos. Foram avaliados cinco equinos adultos, hígidos e sem raça definida. Obtiveram-se frações de medula óssea (MO) do osso esterno, de acordo com dois protocolos: na colheita A, utilizou-se 10mL de solução de heparina dentro da seringa e em seguida, aspirou-se a MO; na colheita B, 10mL de solução de heparina foi injetada na MO e a aspiração foi realizada após 20 segundos. Todos os animais foram submetidos aos dois protocolos de colheitas, realizadas em sequência, sem intervalo entre os dois procedimentos. Após isolamento da fração de células mononucleares (FCM), das amostras de MO obtidas nas colheitas A e B, cada amostra foi dividida em dois tubos, um contendo solução de DMEM e outro contendo PBS. Assim, alternando-se o tipo de colheita e a solução diluidora, obteve-se quatro tubos de amostras por animal. Os tubos foram centrifugados e os sedimentos foram homogeneizados nos respectivos meios obtendo-se o volume final de 100μL. Realizou-se determinação da concentração e viabilidade celular, obtendo-se as concentrações médias de FCM. Para ambos os meios de diluição, a colheita B apresentou valor numérico maior em comparação à colheita A, porém não foi significativo (p>0,05). Atribui-se tal tendência à menor ocorrência de coagulação da MO no momento da colheita B, sugerindo-se melhor aproveitamento da FCM. Não houve diferença (p>0,05) entre os meios DMEM ou PBS, indicando que os mesmos não alteraram a viabilidade celular. Os protocolos utilizados para colheita de MO e separação da FCM se mostraram eficientes, para o uso em terapia celular em equinos.(AU)

The aim of this study was to evaluate mononuclear cells fraction (MCF) concentration and viability from different techniques of bone marrow (BM) aspiration and processing in horses. Five adult horses, healthy and of unknown breed were evaluated. BM was obtained from sternum bone, according two protocols: in aspiration A, 10mL of heparin solution was used inside the syringe and BM was aspirated; in aspiration B, 10mL of heparin solution was injected into the BM, and aspiration was done after 20 seconds. All the animals were submitted by both protocols realized in sequence, without a gap between the procedures. After MCF isolation, of BM samples obtained from A and B aspiration, each sample was divided into two tubes; one contained DMEM solution and the other with PBS solution. Therefore, interchanging the aspiration protocol and the dilution solution, four sample tubes were obtained for each horse. The tubes were centrifuged and the pellet was homogenized with the respectively solution to obtain the final volume of 100μL. Cellular concentration and viability were determined to obtain the FCM medium concentration. For both solutions, the aspiration B had higher numeric values comparing with aspiration A; however, it was not significant (p>0.05). This tendency is attribute for the less BM coagulation observed in the aspiration B, suggesting greater improvement of MCF. No difference (p>0.05) was found between DMEM and PBS solution, indicating that both do not alter the cell viability. The protocols used for BM aspiration and MCF isolation were efficient for application in equine cellular therapy.(AU)

Morphology and morphometry of feline bone marrow-derived mesenchymal stem cells in culture / Morfologia e morfometria das células-tronco mesenquimais isoladas de medula óssea de gato

Mesenchymal stem cells (MSC) are increasingly being proposed as a therapeutic option for treatment of a variety of different diseases in human and veterinary medicine. Stem cells have been isolated from feline bone marrow, however, very few data exist about the morphology of these cells and no data were found about the morphometry of feline bone marrow-derived MSCs (BM-MSCs). The objectives of this study were the isolation, growth evaluation, differentiation potential and characterization of feline BM-MSCs by their morphological and morphometric characteristics. in vitro differentiation assays were conducted to confirm the multipotency of feline MSC, as assessed by their ability to differentiate into three cell lineages (osteoblasts, chondrocytes, and adipocytes). To evaluate morphological and morphometric characteristics the cells are maintained in culture. Cells were observed with light microscope, with association of dyes, and they were measured at 24, 48, 72 and 120h of culture (P1 and P3). The non-parametric ANOVA test for independent samples was performed and the means were compared by Tukey's test. On average, the number of mononuclear cells obtained was 12.29 (±6.05x106) cells/mL of bone marrow. Morphologically, BM-MSCs were long and fusiforms, and squamous with abundant cytoplasm. In the morphometric study of the cells, it was observed a significant increase in average length of cells during the first passage. The cell lengths were 106.97±38.16µm and 177.91±71.61µm, respectively, at first and third passages (24 h). The cell widths were 30.79±16.75 µm and 40.18±20.46µm, respectively, at first and third passages (24 h).The nucleus length of the feline BM-MSCs at P1 increased from 16.28µm (24h) to 21.29µm (120h). However, at P3, the nucleus length was 26.35µm (24h) and 25.22µm (120h). This information could be important for future application and use of feline BM-MSCs.(AU)

As células tronco mesenquimais são utilizadas na terapia de várias doenças na medicina humana e veterinária. As células tronco foram isoladas da medula óssea de gato, entretanto, existem poucos dados referentes a morfologia e não existem informações sobre a morfometria das células tronco isoladas da medula óssea. Os objetivos do presente estudo foram o isolamento, avaliação do crescimento, potencial de diferenciação e caracterização morfológica e morfométrica das células mesenquimais de gato isoladas de medula óssea. A diferenciação in vitro foi realizada para confirmar a multipotencialidade das células mesenquimais de gato (diferenciação em osteoblastos, condrócitos, adipócitos). As células mesenquimais foram mantidas em cultivo para avaliações morfológica e morfométrica. As células foram coradas e observadas em microscopia ótica. As mensurações foram realizadas com 24, 48, 72 e 120h de cultura (primeira e terceira passagens). O teste não paramétrico ANOVA foi utilizado e as médias foram comparadas pelo teste de Tukey. O número médio de células mononucleares obtido foi de 12,29 (±6,05x106) células/mL de medula óssea. As células mesenquimais são longas e fusiformes, e escamosas com citoplasma abundante. No estudo morfométrico, observou-se aumento no comprimento médio das células durante a primeira passagem. As medidas de comprimento das células foram: 106,97±38,16µm e 177,91±71,61µm, respectivamente, na primeira e terceira passagens (24 horas). As medidas de largura das células foram: 30,79±16,75 µm e 40,18±20,46 µm, respectivamente, na primeira e terceira passagens (24 horas). O comprimento do núcleo na primeira passagem aumentou de 16,28µm (24h) para 21,29µm (120h) e na terceira passagem foi de 26,35µm (24h) para 25,22µm (120h). As informações são importantes para futuras aplicações e uso da célula mesenquimal de gato.(AU)

Morphology and morphometry of feline bone marrow-derived mesenchymal stem cells in culture / Morfologia e morfometria das células-tronco mesenquimais isoladas de medula óssea de gato

Mesenchymal stem cells (MSC) are increasingly being proposed as a therapeutic option for treatment of a variety of different diseases in human and veterinary medicine. Stem cells have been isolated from feline bone marrow, however, very few data exist about the morphology of these cells and no data were found about the morphometry of feline bone marrow-derived MSCs (BM-MSCs). The objectives of this study were the isolation, growth evaluation, differentiation potential and characterization of feline BM-MSCs by their morphological and morphometric characteristics. in vitro differentiation assays were conducted to confirm the multipotency of feline MSC, as assessed by their ability to differentiate into three cell lineages (osteoblasts, chondrocytes, and adipocytes). To evaluate morphological and morphometric characteristics the cells are maintained in culture. Cells were observed with light microscope, with association of dyes, and they were measured at 24, 48, 72 and 120h of culture (P1 and P3). The non-parametric ANOVA test for independent samples was performed and the means were compared by Tukey's test. On average, the number of mononuclear cells obtained was 12.29 (±6.05x10(6)) cells/mL of bone marrow. Morphologically, BM-MSCs were long and fusiforms, and squamous with abundant cytoplasm. In the morphometric study of the cells, it was observed a significant increase in average length of cells during the first passage. The cell lengths were 106.97±38.16µm and 177.91±71.61µm, respectively, at first and third passages (24 h). The cell widths were 30.79±16.75 µm and 40.18±20.46µm, respectively, at first and third passages (24 h).The nucleus length of the feline BM-MSCs at P1 increased from 16.28µm (24h) to 21.29µm (120h). However, at P3, the nucleus length was 26.35µm (24h) and 25.22µm (120h). This information could be important for future application and use of feline BM-MSCs.(AU)

As células tronco mesenquimais são utilizadas na terapia de várias doenças na medicina humana e veterinária. As células tronco foram isoladas da medula óssea de gato, entretanto, existem poucos dados referentes a morfologia e não existem informações sobre a morfometria das células tronco isoladas da medula óssea. Os objetivos do presente estudo foram o isolamento, avaliação do crescimento, potencial de diferenciação e caracterização morfológica e morfométrica das células mesenquimais de gato isoladas de medula óssea. A diferenciação in vitro foi realizada para confirmar a multipotencialidade das células mesenquimais de gato (diferenciação em osteoblastos, condrócitos, adipócitos). As células mesenquimais foram mantidas em cultivo para avaliações morfológica e morfométrica. As células foram coradas e observadas em microscopia ótica. As mensurações foram realizadas com 24, 48, 72 e 120h de cultura (primeira e terceira passagens). O teste não paramétrico ANOVA foi utilizado e as médias foram comparadas pelo teste de Tukey. O número médio de células mononucleares obtido foi de 12,29 (±6,05x10(6)) células/mL de medula óssea. As células mesenquimais são longas e fusiformes, e escamosas com citoplasma abundante. No estudo morfométrico, observou-se aumento no comprimento médio das células durante a primeira passagem. As medidas de comprimento das células foram: 106,97±38,16µm e 177,91±71,61µm, respectivamente, na primeira e terceira passagens (24 horas). As medidas de largura das células foram: 30,79±16,75 µm e 40,18±20,46 µm, respectivamente, na primeira e terceira passagens (24 horas). O comprimento do núcleo na primeira passagem aumentou de 16,28µm (24h) para 21,29µm (120h) e na terceira passagem foi de 26,35µm (24h) para 25,22µm (120h). As informações são importantes para futuras aplicações e uso da célula mesenquimal de gato.(AU)