Objective To observe the ultrastructural characteristics of human retinal progenitor cells cultured in vitro. Methods Six 5-month-old human fetuses(12 eyes)without eye diseases were selected. Retinal progenitor cells from the retina of one eye of each fetus were cultured in vitro,and observed by transmission electronic microscopy(TEM); while those from the other eye were directly observed by TEM. Results Abundant heterochromatin were found in the karyon of 5-month embryonic retinal neuroepithelial cells,and the figure of the karyons was irregular.A few scattered initial cells were seen in retinal neuroepithelial layer with large karyon,smooth surface,abundant euchromatin,and distinct nucleolus.The human retinal progenitor cells cultured in vitro had the same ultrastructural characteristics as the initial cells:with huge karyon which almost occupied the whole cell,little cytoplasm,distint nucleolus,abundant euchromatin,and little heterochromatin.The cells clung to each other in the neural globoid cell mass.The size of the outer cells was large,and karyokinesis could be found. Conclusion The cultured human retinal progenitor cells are provided with the same ultrastructure characteristics as the initial cells. (Chin J Ocul Fundus Dis, 2006, 22: 185-187)
ObjectiveTo investigate the effect of electroacupuncture on the apoptosis of hippocampal neurons in C57BL/6J mice with status epilepticus by observing the changes of hippocampal subtle neuron pathology and apoptosis.MethodsMale C57BL/6J mice were used to prepare epileptic status models of lithium-pilocarpine mice, and then 7-day electroacupuncture stimulation (Baihui, Fengfu) were given to the mice model. Open field experiment and new object recognition experiment were performed to observe the changes of cognitive abilities. The pathological changes of hippocampal neurons were detected by HE staining. Hippocampal apoptosis protein (Caspase-3) and microtubule-associated protein (MAP-2) were detected by immunohistochemistry. Effect of electroacupuncture on apoptosis of hippocampal neurons in C57BL/6J mice with status epilepticus were recorded.Results① Compared with the control group, the vertical movement, modification times, and number of crossings of the model group all decreased significantly (P<0.000 1,P<0.000 1,P<0.000 1), and their cognitive ability decreased significantly (P<0.01). Compared with the model group, vertical movements, modification times, and number of crossings were increased in the electroacupuncture (EA) group (P<0.01,P<0.05,P<0.05), and the cognitive ability of new objects was increased (P<0.01). ② HE staining showed that the model group had significant damage to the hippocampal neurons of mice, and the cells swelled, nuclear collapsed and vacuoles appeared. In the EA group, the injury of hippocampal neurons was alleviated, and cell edema and vacuolization were alleviated. ③ Immunohistochemistry showed that compared with the control group, the IOD of the Caspase-3 positive cells in the hippocampus of the model group increased significantly (P<0.000 1), and the IOD of the MAP-2 positive cells decreased significantly (P<0.01); Compared with the electroacupuncture, the IOD of the Caspase-3 positive cells in the hippocampus of the mice decreased (P<0.05), and the IOD of the MAP-2 positive cells increased (P<0.05).ConclusionsElectroacupuncture can improve the pathological changes of hippocampal neurons in C57BL/6J mice with status epilepticus, promote cytoskeletal repair, reduce neuronal apoptosis in hippocampus, and antagonize the damage of hippocampal neurons induced by status epilepticus.
Objective To study the expression and its significance of bcl-2 associated death (bad) gene in human optic nerves from traumatic atrophic eyeballs. Methods The optic nerves from 8 normal human donor eyes and 31 traumatic atrophic eyes were studied by immunohistochemistry technique. Results Bad protein was positively expressed in the normal optic nerve myelin sheath and residual myelin portions of optic nerve tissues from traumatic atrophic eyes. The expression of bad protein in the residual portions of myelin sheath was stained significantly ber than that in normal optic nerves (P<0.05)。The pathological durations for ocular atrophy was not co-related with the quantites of expression of bad protein. There was no significant difference between pathogenic causes of ocular atrophies and the quantites of bad expression (P>0.05). Conclusion Bad might possess the function of promoting the optic nerve atrophy processes in traumatic atrophic eyes. (Chin J Ocul Fundus Dis, 2002, 18: 276-278)
Epilepsy is a heterogeneous disease with a very complex etiological mechanism, characterized by recurrent and unpredictable abnormal neuronal discharge. Epilepsy patients mainly rely on oral antiseizure medication (ASMs) the for treatment and control of disease progression. However, about 30% patients are resistance to ASMs, leading to the inability to alleviate and cure seizures, which gradually evolve into refractory epilepsy. The most common type of intractable epilepsy is temporal lobe epilepsy. Therefore, in-depth exploration of the causes and molecular mechanisms of seizures is the key to find new methods for treating refractory epilepsy. Mitochondria are important organelles within cells, providing abundant energy to neurons and continuously driving their activity. Neurons rely on mitochondria for complex neurotransmitter transmission, synaptic plasticity processes, and the establishment of membrane excitability. The process by which the autophagy system degrades and metabolizes damaged mitochondria through lysosomes is called mitophagy. Mitophagy is a specific autophagic pathway that maintains cellular structure and function. Mitochondrial dysfunction can produce harmful reactive oxygen species, damage cell proteins and DNA, or trigger programmed cell death. Mitophagy helps maintain mitochondrial quality control and quantity regulation in various cell types, and is closely related to the occurrence and development of epilepsy. The imbalance of mitophagy regulation is one of the causes of abnormal neuronal discharge and epileptic seizures. Understanding its related mechanisms is crucial for the treatment and control of the progression of epilepsy in patients.
Objective To explore the change tendency of hypoxia-inducible factor-1α (HIF-1α) and extracellular signal-regulated kinase 1/2 (ERK1/2) in fetal rat cerebral cortex neurons cultured in vitro after hypoxia-ischemia reperfusion andto investigate their mutual relationship. Methods Cortical neurons obtained from cerebral cortex of 15 pregnant SD rats at16-18 days of gestation underwent primary culture. The primary neurons 5 days after culture were adopted to establ ish model of oxygen and glucose deprivation (OGD). The experiment was divided into 4 groups: the experimental group 1, culture medium was changed to neuron complete medium containing glucose after the preparation of OGD model to form reperfusion, and the neurons were observed 0, 2, 4, 8, 12 and 24 hours after reperfusion; the control group 1, the neurons were treated with normal medium; the experimental group 2, the neurons were pretreated with U0126 followed by the preparation of OGD model, and the neurons were observed 4 and 8 hours after reperfusion; the control group 2, the neurons were pretreated with DMSO, and other treatments were the same as the experimental group 2. Expressions of HIF-1α, VEGF protein, ERK1/2 and p-ERK1/2 were detected by Western blot. Expression and distribution of p-ERK1/2 and HIF-1α protein were detected by SABC immunocytochemistry method. Results Compl icated synaptic connections between cortical neurons processes were observed 5 days after culture. The expression of HIF-1α and VEGF were increased gradually, peaked at 8 hours, and decreased gradually after 12 hours in the experimental group 1, and there were significant differences between the experimental group 1 and the control group 1 (P lt; 0.05). There was no significant difference between the experimental group 1 and the control group 1 in terms of ERK1/2 protein expression (P gt; 0.05). The p-ERK1/2 protein expression in the experimental group 1 started to increase at 2 hours peaked at 4 hours, and started to decrease at 8 hours, showing significant differences compared with the control group 1 (P lt; 0.01). In the experimental group 2, the p-ERK1/2 protein decreased, and HIF-1αand VEGF protein expression subsequentlydecreased, showing significant differences compared with the control group 2 (P lt; 0.05). There was no significant difference between the experimental group 2 and the control group 2 in terms of ERK1/2 protein expression at each time point (P gt; 0.05). Immunocytochemistry staining showed that p-ERK1/2 and HIF-1α expression decreased, and the yellow-brown staining of the neurons was reduced. Conclusion Expressions of HIF-1α and its target-gene VEGF protein in the cortex neurons after OGD reperfusion are time-dependent. Their expressions decrease when ERK1/2 signal ing pathway is inhibited, indicating the pathway plays an important role in the regulation of HIF-1α and VEGF induced by OGD of cortical neurons
Objective To observe the effects of minocycline to the viability and apoptosis of ratprime;s retinal neuron cells (RNC) under pressure, and to investigate the neuroprotective mechanisms of minocycline against the RNC damage. Methods Establish a model of ratprime;s RNs under pressure cultured in vitro, the protective effect of minocycline is observed by different methods, including observing the morphology of the cells, evaluating the cellsprime; viability by methyl thiazolyl tetrazolium (MTT) colorimetry assay, and detecting the cellular apoptosis with acridine orange/ethidium bromide (AO/EB) double staining by fluorescence microscopy. Immunocytochemistry was used to detect the expression of iNOS and caspase-3 in the cells. Results Obvious morphology changes of RNC were found in cells under pressure compared with the control; the viability of RNC decreased and cellular apoptosis was found in 53.93% cells. The cellular morphology improved in the cells treated by 20 mu;mol/L minocycline, the cellular viability significantly increased, and the cellular apoptosis was found in 17.29% cells. In addition, the expression of iNOS and caspase3 in the treated cells decreased compared with which in the pressured group. Conclusion Minocycline with a certain concentration can effectively inhibit pressureinduced damage and apoptosis of RNC of rats, and the inhibitory effect on expression of iNOS and capases-3 may be the underlying mechanism.
Objective To investigate the characteristics and possibility of using an image analyzer-aided method to count axotomized retinal ganglion cells (RGCs). Methods The left optic nerves of 18 rats were transected intraorbitally and a piece of gelform soaked in 5% fluorogold was applied to the ocular stump to retrogradely label the surviving RGCs. All animals were executed 2, 7 or 14 d ays after the operation (n=6 for each time point), respectively. The left retinae were removed, post-fixed and whole-mounted on the slides. The numbers of labeled RGCs were counted using both the conventional sampling method and image analysis, and compared statistically between the two methods.Results The number of surviving RGCs decreased sharply[(12 0663±9 089), (59 285±17 071) and (17 802±19 8 4) cells/mm2 for image analyzer-aided method, and (118 237±7 898), (57 648±14 533) and (18 070±1 461) cells/mm2 for conventional sampling method]when the survival time increased from 2 to 7 and 14 days. No significant difference was detected between the two groups at any corresponding time points.Conclusion The image analyzer-aided method is convenient, objective and reproducible, which can be used in the studies where counting RGCs is needed. (Chin J Ocul Fundus Dis,2003,19:333-404)
Objective To study the effects of neonatol rabbit Schwann cells(SC) on repair of optic contusion in adult rabbits. Methods 24 h after the adult rabbit optic nerves was contused,0.1 ml of SC suspension (group A) and saline water (group B) were injected into the vitreous of injured eyes respectively.All the animals were studied by retinal ganglion cell (RGC) and axon counting,flash visual evoked potential (FVEP) tests at various intervals after injury. Results At the 4th week after injury,the number of RGC was (19.89plusmn;3.79)/mm in group A and (12.67plusmn;4.12)/mm in group B,and the density of axons was (94.569plusmn;793)/mm2 in group A and (36.085plusmn;285)/mm2 in group B.There was dramatical difference between group A and B (Plt;0.01).The amplitude of FVEP wave of group A increased from 48% to 88% on the 3rd day after injury,and still dept 78% at the 8th week and group A was significantly higher than group B at various intervals (Plt;0.01). Conclusion SC are effective in promoting the repair of optic nerve contusion by increasing the survival rate of RGC,rescuing axons from degeneration,and dramatically promoting the function of the optic nerve. (Chin J Ocul Fundus Dis,2000,16:91-93)
Purpose To study the effects of Schwann cells(SC) on promoting and supporting axon growth of rabbit retinal neurons in vitro. Methods The scistic nerves of neonatal rabbits were dissected and cultured for 2 weeks to obtain SC monolayers. The retinal cells that had been freshly dispersed were seeded respectively onto the SC monolayers or poly L lysine covered dishes,and the morphology of cultured retinal neurons was observed and the 24th hours and 48th hours respectively under the phase contrast microscopic. Results Retinal neurons of neonatal rabbits attached to the two substrate and extended axons at the 24th hour.Neurite length on SC reached 85plusmn;17mu;m at the 24th hour and 283plusmn;27mu;m at the 48th hour respectively and was significantly longer than on acellular substrate (Plt;0.01) Conciusion SCs are effctive in promoting and supporting neurite growth of retinal neurons in vitro. (Chin J Ocul Fundus Dis,1998,14:212-214)
Objective To investigate the relationship between electrophysiological and morphological properties of neurons in visual cortex of developing rat, speculate the coincided degree between electrophysiological and morphological change and realize the mechanism of normal visual development. Methods Whole cell patch-clamp recording and intracellular staining were used to acquire cellular microelectrode recording in visual cortex from Sprague-Dawley rats (4~28 days old). The histological process was made. Results The differences of electrical feature between pyramidal cells and non-pyramidal cells were significant. The morphological maturity degree is different in developing visual cortex. Conclusion The different function of pyramidal and non-pyramidal cells in local integrition is reflected by their electrical feature in the process of visual development. In critical period of visual development, the coincision degree of the electrophysiological and morphological change in visual cortex is larger than that in the subcortex constructure. (Chin J Ocul Fundus Dis, 2001,17:289-292)