ABSTRACT
SUMMARY: Dystrophin disfunction results in sarcolemma destabilization, leading muscle cell damage by continuous degeneration cycles and limited regeneration. In muscle dystrophy, caused by dystrophin dysfunction, inflammation, necrosis and fibrosis are pathophysiological muscle function loss characteristics. As a genetic disease, this muscle dystrophy has no cure, however, advances in drug therapy using glucocorticoids can decrease the disease progression. Subsequently, alternative therapies were studied, such as ursolic acid (UA), that inhibits muscle atrophy and increases muscle mass and strength. Herein, we used 10 mg/kg daily supplementation in mdx mice for 4 weeks to evaluate serum creatine phosphokinase (CPK), muscle strength (Kondziela test), muscular organization (histology) and expression of fibrosis related genes (TGF-ß, TNF-α, mstn and ostn). UA supplementation increased muscle morphological organization, motor strength and decreased muscular TGF-ß expression. Altogether, the gene expression profile, histological organization and strength could suggest that UA treatment did not stop the fibrogenesis but decreased its progress.
RESUMEN: La disfunción de la distrofina resulta en la desestabilización del sarcolema, llevando al daño de las células musculares por ciclos continuos de degeneración y regeneración limitada. En la distrofia muscular, debido a la disfunción de la distrofina, la inflamación, la necrosis y la fibrosis, son características fisiopatológicas de la pérdida de la función muscular. Como enfermedad genetica no es possible remediar esta distrofia muscular, sin embargo, los avances en la terapia de medicamentos con glucocorticoides pueden disminuir la progresión de la enfermedad. Se estudiaron terapias alternativas, como el ácido ursólico (UA), que inhibe la atrofia muscular y aumenta la masa y la fuerza muscular. En este estudio, utilizamos una suplementación diaria de 10 mg / kg en ratones mdx durante 4 semanas para evaluar la creatina fosfoquinasa (CPK) sérica, la fuerza muscular (prueba de Kondziela), la organización muscular (histología) y la expresión de genes relacionados con la fibrosis (TGF-ß, TNF- α, mstn y ostn). La suplementación con AU aumentó la organización morfológica muscular, la fuerza motora y la disminución de la expresión muscular de TGF-ß. El perfil de expresión génica, la organización histológica y la fuerza simultáneamente podrían sugerir que el tratamiento con AU no detuvo la fibrogénesis sino que disminuyó su progreso.
Subject(s)
Animals , Male , Mice , Oleanolic Acid/analogs & derivatives , Muscular Dystrophies , Oleanolic Acid/administration & dosage , Fibrosis , Transforming Growth Factor beta , Mice, Inbred mdx , Creatine Kinase/blood , Muscle StrengthABSTRACT
SUMMARY: Mesenchymal stem cells are characterized by in vitro high proliferation and multilineage potential maintenance. This study aimed to isolate and characterize equine YS mesenchymal stem cells and compare these with amniotic membranes. The yolk sac (YS) and amniotic membranes (AM) were obtained from 20 pregnant mares with gestational age around 30 days. Cells were cultured in α-MEM supplemented with 15 % FBS, 1 % antibiotic solution, 1 % L-glutamine and 1 % nonessential amino acids. To cell characterization we used cytogenetic analysis, fibroblast colony-forming unit assays, cell growth curves, immunophenotyping, flow cytometry, differentiation assays and teratoma formation. Results: Both cell sources presented fibroblastoid and epithelioid-like format. The YS cells have lower colony formation potential then AM ones, 3 versus 8 colonies per 103 plated cells. However, YS cells grew progressively while AM cells showed steady. Both, the YS and amnion cells immunolabeled for Oct-4, Nanog, SSEA-3, cytokeratin 18, PCNA, and vimentin. In addition, presented mesenchymal, hematopoietic, endothelial and pluripotency markers in flow cytometry. Discussion: Both cell sources presented high plasticity and differed into osteogenic, adipogenic, and chondrogenic lineages, and no tumor formation in nude mice was observed. The results suggest that horse YS may be useful for cell therapy such as amnion-derived cells.
RESUMEN: Las células madre mesenquimales se caracterizan por una alta proliferación in vitro y un mantenimiento potencial de múltiples líneas. Este estudio tuvo como objetivo aislar y caracterizar las células madre mesenquimales del saco vitelino equinas y compararlas con las membranas amnióticas. Se obtuvo el saco vitelino (SV) y las membranas amnióticas (MA) de 20 yeguas preñadas con edad gestacional de aproximadamente 30 días. Las células se cultivaron en α -MEM suplementado con 15 % de FBS, 1 % de solución antibiótica, 1 % de L-glutamina y 1 % de aminoácidos no esenciales. Para la caracterización celular utilizamos análisis citogenéticos, ensayos de unidades de colonias de fibroblastos, curvas de crecimiento celular, inmunofenotipaje, citometría de flujo, ensayos de diferenciación y formación de teratomas. Ambas fuentes celulares presentaron formato fibroblastoideo y epitelioide. Las células SV tienen un potencial de formación de colonias más bajo que las de MA, 3 versus 8 colonias por 103 células en placa. Sin embargo, las células SV crecieron progresivamente mientras que las células MA se mostraron estables. Tanto las células YS como las células amnios están inmunomarcadas para Oct-4, Nanog, SSEA-3, citoqueratina 18, PCNA y vimentina. Además, presentó marcadores mesenquimales, hematopoyéticos, endoteliales y pluripotenciales en citometría de flujo. Ambas fuentes celulares presentaron alta plasticidad y diferían en linajes osteogénicos, adipogénicos y condrogénicos, y no se observó formación de tumores en ratones. Los resultados sugieren que el SV de caballo puede ser útil para la terapia celular, como las células derivadas de amnios.
Subject(s)
Animals , Yolk Sac/cytology , Mesenchymal Stem Cells/cytology , Horses , Yolk Sac/embryology , In Vitro Techniques , Cells, Cultured , Immunophenotyping , Regenerative Medicine , Embryonic Development , Flow Cytometry , AmnionABSTRACT
SUMMARY: The vomeronasal organ (VNO) is an accessory organ involved on the olfactory pathway, that detects pheromones and emits signals in order to modulate social and reproductive behavior. The VNO stem cells replace neurons throughout life. The aim of this study was to isolate and characterize cells derived from the vomeronasal organ from New Zealand rabbits. Five male rabbits with 120 days were used for cell isolation and culture. Results: VNO-derived cells presented labelling for proliferation (PCNA), undifferentiated profile (Nanog), neuronal (GFAP), mesenchymal stem cells (CD73, CD90 and CD105 and Stro-1). Also, presence of cytoskeletal (Vimentin, b-tubulin and CK-18) and absence of hematopoietic markers (CD34, CD117 and CD45) both by immunofluorescence and flow cytometry. By PCR it was possible to verify the expression of some undifferentiated profile (Oct-4), neuronal (Nestin) and mesenchymal (CD73, CD105 and Vimentin) genes. Functionally, VNO-derived cells differentiate in vitro into adipocytes, osteocytes and chondrocytes, and presented no tumorigenic potential when injected to Balb/c nu/nu mice. In conclusion, the rabbit VNO-derived cells have a profile that could be supportive to VNO olfactory/neuroreceptor epithelium by delivering factors to epithelial turnover or even by differentiation into epithelial cells to replacement of commissural epithelium.
RESUMEN: El órgano vomeronasal (OVN) es un órgano accesorio de la vía olfatoria, que detecta feromonas y emite señales que afectan la modulación del comportamiento social y reproductivo. Las células madre OVN reemplazan las neuronas durante toda la vida. El objetivo de este estudio fue aislar y caracterizar células derivadas del órgano vomeronasal de conejos raza Nueva Zelanda. Para el aislamiento y el cultivo celular se utilizaron cinco conejos machos con una edad de 120 días. Las células del OVN presentaron etiquetado para la proliferación (PCNA), un perfil indiferenciado (Nanog), neuronal (GFAP), células madre mesenquimales (CD73, CD90 y CD105 y Stro-1). Además, se ob- servó presencia de citoesqueleto (Vimentina, β-tubulina y CK-18) y ausencia de marcadores hematopoyéticos (CD34, CD117 y CD45) tanto por inmunofluorescencia como por citometría de flujo. Me- diante PCR fue posible verificar la expresión de algunos genes de perfil indiferenciado (Oct-4), neuronal (Nestin) y mesenquimatoso (CD73, CD105 y Vimentin). Las células derivadas del OVN se diferencian in vitro en adipocitos, osteocitos y condrocitos, y no presentan un potencial tumorigénico al ser infiltrados en ratones Balb / c nu / nu. En conclusión, las células derivadas de OVN de conejo tienen un perfil que podría ser compatible con el epitelio olfatorio / neurorreceptor de OVN transmitiendo factores al recambio epitelial o incluso mediante la diferenciación en células epiteliales para reemplazar el epitelio comisural.
Subject(s)
Animals , Rabbits/anatomy & histology , Vomeronasal Organ/cytology , Mesenchymal Stem Cells/physiology , Olfactory Bulb/cytology , Stem Cells/physiology , Olfactory Mucosa/cytology , Polymerase Chain Reaction , Fluorescent Antibody Technique , Flow Cytometry , Neurons/physiologyABSTRACT
Understanding of the reproductive function is essential for both, the establishment of appropriate management systems, and for the use of new species as animal models. In this study, we used light and electron microscopy to characterize the sexual development stages of the guinea pig (Cavia porcellus) in specimens of 30, 45 and 90 days of age. We observed the differentiation of spermatocytes only through transmission electron microscopy in the leptotene, zygotene and pachytene phases of meiosis, in 30-day-old animals. During puberty, there was differentiation of the germinative epithelium and formation of the acrosome. Spermatozoa, however, were not detected. Thus, we could infer that puberty happens after 45 days of age. Sexual maturity was evident in 90-day-old specimens. Our results showed that changes in the testicular germinative epithelium during the postnatal sexual development in guinea pig led to morphological changes, including the ones related to the development of Leydig and Sertoli cells, which are directly related to puberty. In this work, we provide new morphological subsidies for a better understanding of reproductive parameters of this species, enabling its use as an animal model in the field of the reproductive biology.(AU)
A função reprodutiva é um fator de vital compreensão tanto para o estabelecimento de sistemas apropriados de manejo, quanto para o uso de novas espécies como modelos animais. Neste estudo através da microscopia de luz e eletrônica caracterizou-se a fase de desenvolvimento sexual do porquinho-da-Índia (Cavia porcellus) em espécimes de 30, 45 e 90 dias de desenvolvimento. Nos animais de 30 dias, a diferenciação dos espermatócitos foi visualizada somente na microscopia eletrônica de transmissão em leptóteno, zigóteno e paquíteno. Durante a puberdade, houve diferenciação do epitélio germinativo, formação do acrossoma, porém não foram evidenciados espermatozóides, assim, infere-se que a puberdade acontece a partir dos 45 dias de idade. A maturidade sexual foi evidente aos 90 dias de idade. Nossos resultados mostraram que ao longo do desenvolvimento sexual pós-natal do porquinho-da-Índia, mudanças no epitélio germinativo testicular levam há alterações morfológicas, inclusive com relação ao desenvolvimento das células de Sertoli e de Leydig, as quais estão diretamente relacionadas com a puberdade. Assim, novos subsídios morfológicos são fornecidos para um melhor entendimento dos parâmetros reprodutivos desta espécie, a fim de viabilizar sua utilização como modelo animal no campo da biologia reprodutiva.(AU)