Ion channels in a skeletal muscle cell line from a Duchenne muscular dystrophy patient

A cell line (RCDMD), derived from a muscle biopsy taken from a 7-year-old patient with Duchenne muscular dystrophy (DMD), was established in vitro using conditioned media from the UCHT1 thyroid cell line as described elsewhere (Biochim Biophys Acta 1992;1134:247-255). Unlike other cell lines established by the same procedure, RCDMD cells were highly refractory to transformation and the resulting cell line grew slowly with a doubling time of approximately 72 h. Further, cells continue to grow after more than 20 doublings and 15 passages. Some of the characteristics of the cell line include lack of reaction with antidystrophin antibodies and the presence of receptors for the dihydropyridine PN200-110 (K-d) = 0.3 +/- 0.05 nmol/L and B-max = 1.06 +/- 0.03 pmol/mg protein) and for alpha-bungarotoxin (K-d = 1.02 +/- 0.17 nmol/L and B-max = 4.2 +/- 0.37 pmol/mg protein). Patch clamped cells in the voltage clamp configuration lack ion currents when growing in complete medium with high serum, but they can be induced to differentiate by serum deprivation and addition of hormones and trace elements. After 5 days in differentiating medium, noninactivating, delayed rectifier potassium currents are seen. At day 12, A-type, inactivating potassium currents as well as transient inward currents are seen. In conditions in which sodium and potassium currents are absent, a very fast activating and fast inactivating calcium current was evident. The cell line offers the possibility of studying cellular mechanisms in the pathophysiology of DMD

Cell lines as in vitro models for drug screening and toxicity studies

Cell culture is highly desirable, as it provides systems for ready, direct access and evaluation of tissues. The use of tissue culture is a valuable tool to study problems of clinical relevance, especially those related to diseases, screening, and studies of cell toxicity mechanisms. Ready access to the cells provides the possibility for easy studies of cellular mechanisms that may suggest new potential drug targets and, in the case of pathological-derived tissue, it has an 'Interesting application in the evaluation of therapeutic agents that potentially may treat the dysfunction. However, special considerations must be addressed to establish stable in vitro function. In primary culture, these factors are primarily linked to greater demands of tissue to adequately survive and develop differentiated conditions in vitro. Additional requirements include the use of special substrates (collagen, laminin, extracellular matrix preparations, etc.), growth factors and soluble media supplements, some of which can be quite complex in their composition. These demands, along with difficulties in obtaining adequate tissue amounts, have prompted interest in developing immortalized cell lines which can provide unlimited tissue amounts. However, cell lines tend to exhibit problems in stability and/ or viability, though they serve as a feasible alternative, especially regarding new potential applications in cell transplant therapy. In this regard, stem cells may also be a source for the generation of various cell types in vitro. This review will address aspects of cell culture system application, with focus on immortalized cell lines, in studying cell function and dysfunction with the primary aim being to identify cell targets for drug screening

A permanent cultured cell line from rat adult cerebellum retaining neuronal morphology and TTX receptors in vitro

Resúmenes del Cuarto Congreso Latinoamericano de Microscopía Electrónica y Primer Congreso Iberoamericano de Biología Celula

A human skeletal-muscle cell-line obtained from an adult donor

A cell line (RCMH) in permanent culture was established from surgically removed adult normal human skeletal muscle by exposure to conditioned media obtained from thyroid cells. Cells proliferated indefinitely but displayed density inhibition of growth while maintaining some differentiated markers. Under certain incubation conditions, cells fused into myotube-like structures, with a concomitant increase in muscle specific proteins, such as human myoglobin, skeletal muscle myosin, desmin and dystrophin, as identified using immunocytochemical procedures. In addition, RCMH cells displayed high affinity receptors for alpha-bungarotoxin (B(max) = 0.7 pmol/mg protein, K(d) = 1.5 nM) and dihydropyridines (B(max) = 0.3 pmol/mg protein, K(d) = 0.5 nM for [H-3]PN200-110); these values are comparable to those reported for muscle cells in primary culture. Patch-clamp studies showed the presence of 42 pS carbachol gated channels and of 5 pS calcium channels (current carried by barium); chloride and potassium channels were also seen. This new cell line appears to bc a convenient model system to study skeletal muscle function.NIGMS NIH HHS GM 3598

Knockdown of Myo-Inositol transporter SMIT1 normalizes cholinergic and glutamatergic function in an immortalized cell line established from the cerebral cortex of a trisomy 16 fetal mouse, an animal model of human trisomy 21 (Down Syndrome)

The Na+/myo-inositol cotransporter (SMIT1) is overexpressed in human Down syndrome (DS) and in trisomy 16 fetal mice (Ts16), an animal model of the human condition. SMIT1 overexpression determines increased levels of intracellular myo-inositol, a precursor of phophoinositide synthesis. SMIT1 is overexpressed in CTb cells, an immortalized cell line established from the cerebral cortex of a Ts16 mouse fetus. CTb cells exhibit impaired cytosolic Ca2+ signals in response to glutamatergic and cholinergic stimuli (increased amplitude and delayed time-dependent kinetics in the decay post-stimulation), compared to our CNh cell line, derived from the cerebral cortex of a euploid animal. Considering the role of myo-inositol in intracellular signaling, we normalized SMIT1 expression in CTb cells using specific mRNA antisenses. Forty-eight hours post-transfection, SMIT1 levels in CTb cells reached values comparable to those of CNh cells. At this time, decay kinetics of Ca2+ signals induced by either glutamate, nicotine, or muscarine were accelerated in transfected CTb cells, to values similar to those of CNh cells. The amplitude of glutamate-induced cytosolic Ca2+ signals in CTb cells was also normalized. The results suggest that SMIT1 overexpression contributes to abnormal cholinergic and glutamatergic Ca2+ signals in the trisomic condition, and knockdown of DS-related genes in our Ts16-derived cell line could constitute a relevant tool to study DS-related neuronal dysfunction.Fondecyt (Chile) 1040862 1130241 Univ. of Chile Enlaces ENL 07/05 CNRS/Conicyt Exchange Program Fondation J. Lejeune (France) ICM-ECONOMIA, Chile P09-022-F Millennium Scientific Initiative of the Ministerio de Economia, Fomento y Turism

Optimization of human hepatocyte cultures for citotoxicity studies

Los cultivos de hepatocitos entregan un valioso acercamiento al estudio de las funciones metabólicas específicas del hígado, evaluación de citotoxicidad. No existen líneas humanas inmortales con función normal. La inmortalización de hepatocitos humanos con el método UCHT1(medio de cultivo condicionado por células tumorales de tiroides) permitirá prolongar la sobrevida y función de estos, siendo útil para evaluar funcionalidad y citotoxicidad. Objetivo: Optimizar el cultivo de hepatocitos humanos. Metodología: En cultivos primarios de hepatocitos humanos, se agregó medio UCHT1 cultivando en superficies de colágeno, polilisina, gelatina y matrigel. Como control positivo, se utilizó línea Gherschenson (GER) para evaluar curva de crecimiento y producción de Glucógeno (PAS). Se evaluó citotoxicidad (LIVE/DEAD) en hepatocitos GER expuestos a Metotrexato (10, 100 y 1000 mM) a 24, 48 y 72 hrs. Resultados: Se realizó 3 cultivos primarios. Fue efectiva la utilización de Polilisina y Colágeno. Duración 8 meses. No se ha realizado la curva de crecimiento, ni evaluación de funcionalidad en hepatocitos humanos. La línea GER tiene un crecimiento exponencial (tiempo duplicación: 36 hrs). Se observó producción de glucógeno en condiciones de diferenciación hasta 120 hrs. La citotoxicidad por Metotrexato tiene una curva dosis dependiente, significativa en todas las concentraciones (p<0,001) (CL50 a 1000 mM a 24 hrs). Conclusiones: Se logró establecer una línea primaria de hepatocitos humanos. La polilisina y el colágeno han optimizado el establecimiento de cultivos primarios. El método PAS permitió evaluar producción de glucógeno (diferenciación). Los valores de citotoxicidad demostraron un efecto dosis dependiente en las condiciones experimentales. Logrando estandarizar el método para evaluación futura de líneas celulares humanas