ABSTRACT
Millions of people world over suffer visual disability due to retinal dystrophies which can be age-related or a genetic disorder resulting in gradual degeneration of the retinal pigmented epithelial (RPE) cells and photoreceptors. Therefore, cell replacement therapy offers a great promise in treating such diseases. Since the adult retina does not harbour any stem cells, alternative stem cell sources like the embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) offer a great promise for generating different cell types of the retina. Here, we report the derivation of four iPSC lines from mouse embryonic fibroblasts (MEFs) using a cocktail of recombinant retroviruses carrying the genes for Oct4, Sox2, Klf4 and cMyc. The iPS clone MEF-4F3 was further characterized for stemness marker expression and stable reprogramming by immunocytochemistry, FACS and RT-PCR analysis. Methylation analysis of the nanog promoter confirmed the reprogrammed epigenetic state. Pluripotency was confirmed by embryoid body (EB) formation and lineage-specific marker expression. Also, upon retinal differentiation, patches of pigmented cells with typical cobble-stone phenotype similar to RPE cells are generated within 6 weeks and they expressed ZO-1 (tight junction protein), RPE65 and bestrophin (mature RPE markers) and showed phagocytic activity by the uptake of fluorescent latex beads.
ABSTRACT
Background Investigating the association of blue light-induced damage of retinal pigmenepithelial (RPE) cellwith intracellulaCa2+ conteniimportanfounderstanding the mechanism of retinal disorders.Objective Thistudy wato establish blue light-induced damage model of human RPE celland explore the relationship between the damage of RPE cell and intracellulaCa2+ content.MethodHuman RPE cellwere cultured and passaged.Cell vitality waassayed by trypan blue staining.Fourth-generation cellwere used in these experiments.The cellwere exposed to blue lighwith an intensity of (2000±500)lx fo3,6,9 o12 hours,and the rate of apoptosiwaassayed by TUNEL to assesthe optimal irradiation time focellcultured.The cellwere then randomized into the withouirradiation group,irradiation only group,nifedipine group,ligh+ nifedipine group,(-) BayK8644 group and ligh+ (-) BayK8644 group.The laseconfocal microscope waused to determine the fluorescence intensity of intracellulafree Ca2+ aan excitation wavelength of 488 nm and an emission wavelength of 505 nm.The cell imagewere analyzed using computesoftware.The differenceof fluorescence intensity among the differengroupwere compared by one-way analysiof variance.ResultTrypan blue staining showed thathe viability of RPE cellwamore than 90% afteculturing and passaging.No apoptoticell waseen aftelighexposure fo3 hours.However,differennumberof apoptoticellappeared aftelighexposure fo6,9 and 12 hours.The fluorescence intensity of intracellulafree Ca2+ in the nifedipine group wasignificantly lowethan thaof the withouirradiation group othe ligh+ nifedipine group(both aP=0.000).Lasescanning confocal microscopy showed thathe fluorescence intensitieof intracellulafree Ca2+ in the irradiation only group,(-) BayK8644 group,ligh+ (-)BayK8644 group were highethan thaof the withouirradiation group,with statistical significancebetween them(all P=0.000).No significandifferencewere found in the fluorescence intensity of intracellulafree Ca2+ between the ligh+ nifedipine group and withouirradiation group awell abetween the (-)BayK8644 group and the ligh+(-) BayK8644 group(P =0.339,P =0.410).ConclusionThe optical conditionfoblue light-induced RPE cell damage were exposure of blue-ligha(2000± 500) lx fo6 hourand culturing the cellfo24 hours.Blue lighexposure can induce damage of human RPE cellprobably by triggering the increase of intracellulafree Ca2+ concentration.
ABSTRACT
Background Our previous study demonstrated that kallikrein-kinin is a special protein in vitreous of the eye with proliferative vitreoretinopathy(PVR),and the expression intensity of kallikrein-kinin showed the positive correlation with the grade of PVR.Objective This study was to further explore whether kallikrein-kinin participate in the formation of PVR.Methods Rat retinal pigment epithelial cell line(RPE-J cells) was cultured in DMEM containing 4% fetal bovine serum and then prepared into suspension by PBS with the cells density of 2.5×108 cells/ml.Platelet-rich plasma was prepared by PBS with the platelet 2.5×108 /ml.RPE cell suspension(4μl) and platelet-rich plasma(6μl) was intravitreally injected in the left eyes of 30 clean Wistar rats to establish the PVR models,and 10μl sterile pyrogen-free normal saline solution was used in the same way in other matched rats as controls.The PVR was graded on Francine's criteria in 1 day,3,7,14,21,28 days after injection under the slit lamp.The serum,vitreous and retina were obtained in 28 days after injection to assess the expression of bradykinin using Western blot.The histopathology examination of rat retina was performed in the 28th day after injection.This experimental procedure followed the Regulations for the Administration of Affair Concerning Experimental Animals by State Science and Technology Commission.Results Typical PVR was seen in 25 models with the successful rate 89.3% at 28 days after injection.PVR 1,2,3 grades were respectively exhibited in 7,14,28 days under the slit lamp.Infiltration of inflammatory cells and migration of RPE cells were found in the 7th day.In the 14th day after injection,RPE cells transformed into fibroblasts and retinal detachment occurred after that.Western blot analysis revealed that bradykinin was detected in vitreous,serum and retinal samples of rats in experimental and control rats,but the expression intensity was higher in the rats of model groups.Conclusion Intravitreal co-injection of RPE cells and platelet-rich plasma can effectively induce a model of PVR in Wistar rat.The kallikrein-kinin system probably takes part in the onset of PVR.
ABSTRACT
La melanina y su participación en la génesis de ciertas patologías cardíacas, ha sido revisada recientemente. Sin embargo, la expresión funcional y celular del efecto sobre el corazón no ha sido claramente establecida. En el presente trabajo se hizo uso del extracto de epitelio pigmentado de la retina del globo ocular de embrión de pollo, contentivo de melanina, para estudiar "in vivo" el patrón de contracción del corazón y la frecuencia cardíaca por videocardiograma, un método semi-invasivo en embriones de pollo de 3d-4d días de incubación, e "in vitro", su efecto sobre el patrón mitocondrial de mioblastos cardíacos en cultivo primario de Gota pendiente, incubados con el fluorocromo catiónico, 3,3´-dimetiloxicabonocianida (DiOC1 [3]). El tratamiento promovió una disfunción de la contracción peristáltica del corazón embrionario, con un incremento en el llenado auricular y una reducción de llenado ventricular durante las diástoles. Se determinó una reducción significativa de frecuencia cardíaca del 18,73 por ciento, luego de una hora de tratamiento. A diferencia de los controles, con un patrón homogéneo de fluorescencia verde emitido por las mitocondrias de forma alargada, la población de mioblastos tratados mostró un patrón de fluorescencia difusa, mitocondrias redondeadas y se observó la presencia de blebs a nivel de la superficie celular. Los resultados sugieren que el extracto de epitelio pigmentado de retina, contentivo de melanina, altera la contracción peristáltica e induce una reducción de la frecuencia cardíaca en modelo experimental de embrión de pollo, acompañada con un daño en las mitocondrias, probablemente vinculado a la activación de un proceso de muerte celular mediado por factores apoptoticos mitocondriales que podrían estar asociados a tales efectos
Melanin and its involvement in the genesis of certain cardiac diseases, has recently been revised. However, the expression of functional and cellular effects on the heart has not been clearly established. In this paper we made use of the extract of the retinal pigmented epithelium of the eyeball of the chick embryo, containing melanin, to study "in vivo" the pattern of contraction of the heart and the heart rate by Videocardiograma semi-invasive method in embryos of 3d-4d days of incubation, and in vitro, their effect on the pattern of mitochondrial using Hanging drop method, to primary culture of cardiac myoblasts, incubated with the cationic fluorochrome, 3,3-dimetiloxicabonocianida (DiOC1 [3]). The treatment promoted a malfunction of the peristaltic contraction of the embryonic heart, with an increase in atrial filling and reduced ventricular filling during diastole. We determined a significant reduction in heart rate of 18.73 percent, after an hour of treatment. The population of myoblasts showed a diffuse pattern of fluorescence, mitochondria were rounded and the cytoplasm showed the presence of blebs at the surface unlike controls with a uniform pattern of green fluorescence emitted by the elongated shape of mitochondria. The results suggested that the extract of retinal pigmented epithelium, melanin containing, alters the peristaltic contraction and decrease the heart rate in experimental model of chick embryo, together with mitochondrial damage, probably linked to the activation of a process of cell death mediated by factors apoptotic mitochondria, which could be associated with such effects