A modular perfused chamber for low- and normal-temperature microscopy of living cells

An inexpensive modular perfused chamber (MPC) designed for low- and normal-temperature live-cell imaging is presented. The device consists of four lathed pieces of stainless steel assembled as a cylindrical open chamber that can hold either round or square glass coverslips. The chamber is connected to a thermal-bath operating with recirculation. For image acquisition at 4°C, cooled air is blown toward the coverslip surface to prevent condensation. Principal advantages of this device are thermal stability in the sample environment, rapid response to changes in temperature set point, and easy sample insertion. The device enables the study of dynamic processes in cells governed by large temperature differences such as those imposed by hypothermic preservation of cells (0-4°C) followed by rewarming to normothermia (37°C). The capabilities of the MPC were demonstrated by monitoring the internalization of fluorescent quantum dots (QDs) in rat hepatocytes after hypothermic storage and during rewarming with an inverted microscope.     

Alpha-tocopherol in the brain tissue preservation of stroke-prone spontaneously hypertensive rats

Oxidative stress has an important role in neuronal damage during cerebral ischemia and can lead to cognitive and behavioral impairment. Alpha-tocopherol, a powerful antioxidant, may be able to preserve neuronal tissue and circumvent neurological deficits. Thus, this study aimed to investigate the influence of alpha-tocopherol in the preservation of brain tissue and the maintenance of memory formation in stroke-prone spontaneously hypertensive rats (SHRSP). To achieve this aim, twenty-four 15-week-old male SHRSP rats were separated into the following four groups (n?=?6 each) that received different treatments over a 4-week period: the alpha-tocopherol group, the control group, the L-NAME group, and the L-NAME?+?alpha-tocopherol group. We evaluated the physiological parameters (body weight, diuresis, and food and water intake), an oxidative stress marker (malondialdehyde levels), and neurological responses (the Morris Water Maze and Novel Objects Recognition tests). Afterwards, the brains were removed for histopathological analysis and quantification of the number of cells in the hippocampus. Statistically, the alpha-tocopherol group demonstrated better results when compared to all groups. The data indicated a reduction in oxidative stress and the preservation of neurological responses in groups treated with alpha-tocopherol. In contrast, the L-NAME group exhibited increased malondialdehyde levels, impairment of neurological responses, and several hippocampus tissue injuries. The others groups exhibited nerve tissue changes that were restricted to the glial nodes. No significant alterations were observed in the physiologic parameters. Based on these findings, we suggest that alpha-tocopherol can prevent stroke, preserve the structure of the hippocampus, and maintain both memory and cognition functions.     

The retroactive action of paradoxical sleep deprivation and immobilization stress on the mechanisms of memory and passive avoidance in rats

Influence was studied of 48-hours deprivation of paradoxical sleep (DPS) and immobilization stress on conditioned reaction of fear and security--components of passive avoidance conditioned reflex (CRPA), with simultaneous studying of vertical, horizontal activity, grooming reactions and defecations in an illuminated chamber. The obtained results allow to conclude that DPS inhibits reproduction of memory traces of fear reaction but intensifies the process of learning and activity of memory traces of security reaction. Depending on condition of CRPA elaboration, DPS may disturb or, on the contrary, prolong preservation of passive avoidance. It has been found that the immobilization stress does not influence CRPA preservation and does not weaken the reaction of fear but increases the horizontal activity. It is suggested that the observed changes in behaviour and trace processes are connected with disturbance of sensory informational homeostasis of the nervous system at DPS.     

alpha-Tocopherol affects neuronal plasticity in adult rat dentate gyrus: the possible role of PKCdelta

Hippocampus dentate gyrus (DG) is characterized by neuronal plasticity processes in adulthood, and polysialylation of NCAM promotes neuronal plasticity. In previous investigations we found that alpha-tocopherol increased the PSA-NCAM-positive granule cell number in adult rat DG, suggesting that alpha-tocopherol may enhance neuronal plasticity. To verify this hypothesis, in the present study, structural remodeling in adult rat DG was investigated under alpha-tocopherol supplementation conditions. PSA-NCAM expression was evaluated by Western blotting, evaluation of PSA-NCAM-positive granule cell density, and morphometric analysis of PSA-NCAM-positive processes. In addition, the optical density of synaptophysin immunoreactivity and the synaptic profile density, examined by electron microscopy, were evaluated. Moreover, considering that PSA-NCAM expression has been found to be related to PKCdelta activity and alpha-tocopherol has been shown to inhibit PKC activity in vitro, Western blotting and immunohistochemistry followed by densitometry were used to analyze PKC. Our results demonstrated that an increase in PSA-NCAM expression and optical density of DG molecular layer synaptophysin immunoreactivity occurred in alpha-tocopherol-treated rats. Electron microscopy analysis showed that the increase in synaptophysin expression was related to an increase in synaptic profile density. In addition, Western blotting revealed a decrease in phospho-PKC Pan and phospho-PKCdelta, demonstrating that alpha-tocopherol is also able to inhibit PKC activity in vivo. Likewise, immunoreactivity for the active form of PKCdelta was lower in alpha-tocopherol-treated rats than in controls, while no changes were found in PKCdelta expression. These results demonstrate that alpha-tocopherol is an exogenous factor affecting neuronal plasticity in adult rat DG, possibly through PKCdelta inhibition.     

Plasma phospholipid transfer protein prevents vascular endothelium dysfunction by delivering alpha-tocopherol to endothelial cells.

alpha-tocopherol, the most potent antioxidant form of vitamin E, is mainly bound to lipoproteins in plasma and its incorporation into the vascular wall can prevent the endothelium dysfunction at an early stage of atherogenesis. In the present study, the plasma phospholipid transfer protein (PLTP) was shown to promote the net mass transfer of alpha-tocopherol from high density lipoproteins (HDL) and alpha-tocopherol-albumin complexes toward alpha-tocopherol-depleted, oxidized low density lipoproteins (LDL). The facilitated transfer reaction of alpha-tocopherol could be blocked by specific anti-PLTP antibodies. These observations indicate that PLTP may restore the antioxidant potential of plasma LDL at an early stage of the oxidation cascade that subsequently leads to cellular damages. In addition, the present study demonstrated that the PLTP-mediated net mass transfer of alpha-tocopherol can constitute a new mechanism for the incorporation of alpha-tocopherol into the vascular wall in addition to the previously recognized LDL receptor and lipoprotein lipase pathways. In ex vivo studies on rabbit aortic segments, the impairment of the endothelium-dependent arterial relaxation induced by oxidized LDL was found to be counteracted by a pretreatment with purified PLTP and alpha-tocopherol-albumin complexes, and both the maximal response and the sensitivity to acetylcholine were significantly improved. We conclude that PLTP, by supplying oxidized LDL and endothelial cells with alpha-tocopherol through a net mass transfer reaction may play at least two distinct beneficial roles in preventing endothelium damage, i.e., the antioxidant protection of LDL and the preservation of a normal relaxing function of vascular endothelial cells.     

Inhibition of peroxyl radical-mediated lipid oxidation by plasmalogen phospholipids and alpha-tocopherol

The recently discovered peroxyl radical scavenging properties of plasmalogen phospholipids led us to evaluate their potential interactions with alpha-tocopherol. The oxidative decay of plasmalogen phospholipids and of polyunsaturated fatty acids as induced by peroxyl radicals (generated from 2,2'-azobis-2-amidinopropane hydrochloride; AAPH) was studied in micelles using 1H-NMR and chemical analyses. In comparison with alpha-tocopherol, a 20- to 25-fold higher concentration of plasmalogen phospholipids was needed to induce a similar inhibition of peroxyl radical-mediated oxidation of polyunsaturated fatty acids. Plasmalogen phospholipids and alpha-tocopherol protected each other from oxidative degradation. In low-density lipoproteins (LDL) and micelles supplemented with plasmalogen phospholipids plus alpha-tocopherol, the peroxyl radical-promoted oxidation was additively diminished. The differences in the capacities to inhibit oxidation processes induced by peroxyl radicals between the plasmalogen phospholipids and alpha-tocopherol were less pronounced in the LDL particles than in the micelles. In conclusion, plasmalogen phospholipids and alpha-tocopherol apparently compete for the interaction with the peroxyl radicals. Oxidation processes induced by peroxyl radicals are inhibited in an additive manner in the presence of the two radical scavengers. The contribution of the plasmalogen phospholipids to the protection against peroxyl radical promoted oxidation in vivo is expected to be at least as important as that of alpha-tocopherol.     

Bioavailability of carotenoids and tocopherols from broccoli: in vivo and in vitro assessment

Fruits and vegetables are the major sources of biologically active compounds, and carotenoids and tocopherols constitute important groups in human diets. Bioavailability is a critical feature in the assessment of the role of micronutrients in human health, and the approaches to this issue include in vitro and in vivo methods. Our aim was to evaluate the bioavailability of carotenoids and tocopherols present in broccoli and to compare in vitro and in vivo approaches. Fourteen apparently healthy volunteers consumed 200 g broccoli once a day for seven days. Blood samples were drawn at baseline and after intervention to determine changes in lutein, beta-carotene, and alpha- and gamma-tocopherol as relevant phytochemicals provided with this vegetable. Broccoli also was subjected to simulated gastrointestinal digestion to assess changes related to preabsorptive processes. Analytes in serum and at each phase of the digestion were assayed by high-performance liquid chromatography. During the intervention, the amounts supplied daily ranged from 2.4 to 3.1 mg lutein, 1.4 to 1.8 mg beta-carotene, 4.5 to 6.8 mg alpha-tocopherol, and 0.8 to 1.8 mg gamma-tocopherol. Significant changes in serum in both men and women were observed only for lutein, whereas for gamma-tocopherol a significant change was detected in women. No changes were observed for alpha-tocopherol, beta-carotene, retinol, the alpha-tocopherol-to-cholesterol ratio, or serum lipids. Using the in vitro model, more than 75% of lutein, beta-carotene, gamma-tocopherol, and alpha-tocopherol remained at the duodenal phase, whereas incorporation into the supernatants accounted for <20% of the initial content in food. Regular consumption of broccoli at dietary levels increased serum concentrations of lutein and gamma-tocopherol without affecting alpha-tocopherol or beta-carotene status in serum. The behavior of these phytochemicals under in vitro gastrointestinal conditions does not fully explain the changes observed in vivo.     

Morphogenesis of the eye of Siberian sturgeon

The most relevant changes in Acipenser baeri eye organization were detected between hatching and 5 days post hatch. At this age, the eye had an anterior chamber, lens, iris, choroid gland, scleral cartilage, cornea and a vitreous chamber lined by the retina (with two photoreceptors: rods and single cones).     

Noninvasive in vivo imaging of pancreatic islet cell biology

Advanced imaging techniques have become a valuable tool in the study of complex biological processes at the cellular level in biomedical research. Here, we introduce a new technical platform for noninvasive in vivo fluorescence imaging of pancreatic islets using the anterior chamber of the eye as a natural body window. Islets transplanted into the mouse eye engrafted on the iris, became vascularized, retained cellular composition, responded to stimulation and reverted diabetes. Laser-scanning microscopy allowed repetitive in vivo imaging of islet vascularization, beta cell function and death at cellular resolution. Our results thus establish the basis for noninvasive in vivo investigations of complex cellular processes, like beta cell stimulus-response coupling, which can be performed longitudinally under both physiological and pathological conditions.     

Clinical cryobiology of tissues: preservation of corneas

It is well recognized that the clarity of the cornea is a function of its hydration, and that this hydration is controlled by a "pump-and-leak" mechanism operating across the posterior monolayer of cells called the endothelium. A breakdown of the endothelium through disease or injury causes a marked increase in corneal thickness as the stroma imbibes fluid from the aqueous humor in the anterior chamber of the eye. This thickened, edematous condition of the stroma results in a cloudy cornea with an associated marked decrease in visual acuity. Treatment for this condition is usually by full-thickness corneal transplantation (penetrating keratoplasty), the success of which is dependent upon the donor cornea having an intact and healthy endothelium. It is essential, therefore, that any method of corneal storage for penetrating keratoplasty should protect and preserve the endothelium in a viable state. Current clinical practice relies upon short-term methods of preservation by two principal methods. Moist Chamber Storage is the time-honored corneal preservation method; it consists of keeping enucleated eyes at 0-4 degrees C in a sealed jar containing a pad of cotton gauze soaked in saline to provide a humid environment. The time limit placed upon this method of storage is 24-48 hr after which the viability of the endothelium deteriorates rapidly. Storage in M-K (McCarey-Kaufman) Medium involves excision of the corneoscleral segment from the donor eye and immersing it, endothelial side uppermost, in a medium consisting of tissue culture medium, 5% Dextran 40, and antibiotics. Laboratory and clinical studies indicate that storage in M-K medium at 4 degrees C preserves human endothelial cells for up to 4 days when the eye has been removed from the cadaver in less than 10 hr postmortem. Long-term preservation of corneas by freezing has long been a major goal in eye banking because indefinite storage by cryopreservation offers significant advantages for the quality and the quantity of material for use in keratoplasty, as well as for its distribution. However, procedures that have been developed for the cryopreservation of corneas have not been widely used, and a number of studies have shown that these procedures are inadequate for maintaining the integrity of the corneal endothelium. Not surprisingly, clinicians are now reluctant to accept corneas that have been frozen by these methods, though the clinical need is now greater than ever.(ABSTRACT TRUNCATED AT 400 WORDS)     

Oxidative stress and delayed-onset muscle damage after exercise

Reactive oxygen species (ROS) produced during exercise may be involved in delayed-onset muscle damage related to inflammation. To investigate this hypothesis, we studied whether oxidative stress increases nuclear translocation of nuclear factor-kappaB and chemokine expression in skeletal muscle using myotube L6 cells. We also assessed whether prolonged acute exercise could increase these parameters in rats. In L6 cells, H(2)O(2) induced nuclear translocation of p65 and increased the expression of cytokine-induced neutrophil chemoattractant-1 (CINC-1) and monocyte chemoattractant protein-1 (MCP-1), whereas preincubation with alpha-tocopherol limited the increase in these proteins. Sprague Dawley rats were divided into the following groups: rested control, exercised, rested with a high alpha-tocopherol diet, and exercised with a high alpha-tocopherol diet. After 3 weeks of acclimation, both exercise groups ran on a treadmill at 25 m/min for 60 min. Exercise increased nuclear p65, CINC-1, and MCP-1 in gastrocnemius muscle cells, but these changes were ameliorated by the high alpha-tocopherol diet. Increases in myeloperoxidase and thiobarbituric acid-reactive substrates were ameliorated by a high alpha-tocopherol diet, as were the histological changes. Neutrophil activity was not altered by either exercise or a high alpha-tocopherol diet. These results indicate that delayed-onset muscle damage induced by prolonged exercise is partly related to inflammation via phagocyte infiltration caused by ROS and that alpha-tocopherol (an antioxidant) can attenuate such inflammatory changes.     

Calorimetric and infrared spectroscopic studies of the interaction of alpha-tocopherol and alpha-tocopheryl acetate with phospholipid vesicles

The location of alpha-tocopherol and alpha-tocopheryl acetate in the membrane has been a subject of considerable interest, not only because of their relevant physiological function, but also for understanding their interaction with the phospholipids. We have examined this question by using reconstituted systems including dipalmitoyl-glycerophosphocholine multibilayer vesicles to which alpha-tocopherol and alpha-tocopheryl acetate were incorporated. Differential scanning microcalorimetry measurements showed that both compounds were capable of modifying the thermotropic properties of the pure phospholipid, so that the pretransition disappears at low concentrations of these terpenoid molecules. The enthalpy corresponding to the main transition decreases as the concentration of alpha-tocopherol increases and the transition peak is progressively shifted to lower temperatures. alpha-Tocopheryl acetate gave the same type of effect but less marked than in the case of alpha-tocopherol. Fourier-transform infrared spectroscopic measurements were also made on these systems and the temperature dependence of the infrared spectra was studied. A comparison of the spectroscopic data showed that, in agreement with the calorimetric results, alpha-tocopherol remarkably perturbs the thermotropic phase transition of dipalmitoylglycerophosphocholine. It was concluded from a study of the CH2 stretching bands that alpha-tocopherol induced changes in frequency and in bandwidth parameters. However, the changes in frequency and bandwidth with respect to temperature are not concerted; this is a consequence of the existence of more than one phase in the presence of alpha-tocopherol. From the study of the CH2 scissoring band, it was concluded that alpha-tocopherol disrupts the acyl chain packing present in pure dipalmitoylglycerophosphocholine below the onset temperature of the gel-to-liquid-crystal transition. The effect of alpha-tocopheryl acetate is of a similar type to that of alpha-tocopherol but weaker with respect to these stretching and scissoring CH2 bands. Spectral changes were also found in the C = O stretching mode of the phospholipid in the presence of alpha-tocopherol and these changes were attributed to perturbations in the C1-C2 bonds of sn-2-acyl chains of the phospholipid. These effects were much weaker in the case of alpha-tocopheryl acetate; it is suggested that this may be due to a specific interaction between alpha-tocopherol and the polar region of the phospholipid. This interaction seems to be absent in the systems containing alpha-tocopheryl acetate.(ABSTRACT TRUNCATED AT 400 WORDS)     

Incorporation of [3H]alpha-tocopherol into isolated nuclei and its binding by rat liver chromatin]

The investigation of inclusion of [3H]alpha-tocopherol to isolated rat liver nuclei has revealed its nonspecific character. The presence of cytosol is necessary for specific interaction of alpha-tocopherol with nuclei. After the centrifugation of preliminarily labeled chromatin the most quantity of tocopherol was bound with oligonucleosomes and pelleted chromatin. It is supposed, that the preservation of supernucleosomes level of chromatin folding was necessary for the interaction of alpha-tocopherol with chromatin.     

The effect of alpha-tocopherol on lipid peroxidation of microsomes and mitochondria from rat testis

The testis is a remarkably active metabolic organ; hence it is suitable not only for studies of lipid metabolism in the organ itself but also for the study of lipid peroxidation processes in general. The content of fatty acids in testis is high with a prevalence of polyunsaturated fatty acids (PUFA) which renders this tissue very susceptible to lipid peroxidation. Studies were carried out to evaluate the effect of alpha-tocopherol in vitro on ascorbate-Fe(++) lipid peroxidation of rat testis microsomes and mitochondria. Chemiluminescence and fatty acid composition were used as an index of the oxidative destruction of lipids. Special attention was paid to the changes produced on the highly PUFA [C20:4 n6] and [C22:5 n6]. Lipid peroxidation of testis microsomes or mitochondria induced a significant decrease of both fatty acids. Total chemiluminescence was similar in both kinds of organelles when the peroxidized without (control) and with ascorbate-Fe(++) (peroxidized) groups were compared. Arachidonic acid was protected more efficiently than docosapentaenoic acid at all alpha-tocopherol concentrations tested when rat testis microsomes or mitochondria were incubated with ascorbate-Fe(++). The maximal percentage of inhibition in both organelles was approximately 70%; corresponding to an alpha-tocopherol concentration between 1 and 0.25 mM. IC50 values from the inhibition of alpha-tocopherol on the chemiluminescence were higher in microsomes (0.144 mM) than mitochondria (0.078 mM). The protective effect observed by alpha-tocopherol in rat testis mitochondria was higher compared with microsomes, associated with the higher amount of [C20:4 n6]+[C22:5 n6] in microsomes that in mitochondria. It is proposed that the vulnerability to lipid peroxidation of rat testis microsomes and mitochondria is different because of the different proportion of PUFA in these organelles The peroxidizability index (PI) was positively correlated with the level of long chain fatty acids. The results demonstrated the protective effect of alpha-tocopherol on lipid peroxidation in microsomes and mitochondria from rat testis.     

Free radical damage in neonatal rat cardiac myocyte cultures: effects of alpha-tocopherol, Trolox, and phytol

A number of investigations have implicated free radicals in the progression of ischemic/reperfusion injury. alpha-Tocopherol has been found to attenuate alterations due to ischemia and reperfusion in an isolated heart model. The present study was intended to directly examine neonatal rat cardiac ventricular cell cultures exposed to a free radical generating system catalyzed by xanthine oxidase. The effectiveness of alpha-tocopherol in the attenuation of the resultant changes and the mechanism by which the effects of alpha-tocopherol may be exerted were evaluated. Cultures were either nontreated or pretreated for 18 h with 20 microM alpha-tocopherol or the subcomponents of the alpha-tocopherol molecule, phytol and Trolox. Exposure of cell cultures to free radicals resulted in significant increases in lipid peroxidation products, release of both lactate dehydrogenase and 3H-arachidonate, and structural alterations. Pretreatment with alpha-tocopherol showed significant attenuation of the changes associated with exposure to free radicals. Trolox and phytol at equal molar doses were not as effective as alpha-tocopherol in protecting the myocytes against injury. Thus, alpha-tocopherol seems beneficial in its ability to reduce free radical-mediated changes by functioning as a lipophilic antioxidant. Additionally, the intact, native alpha-tocopherol molecule exceeded the protective capabilities of either of its subcomponents.     

A cytogenetic analysis of the antimutagenic action of alpha-tocopherol on spontaneous and radiation-induced chromosomal mutations]

The antimutagenic effect of alpha-tocopherol at concentrations of 1-10(-5)-1-10 mcC/ml was studied with respect to spontaneous and radiation-induced chromosome mutations in Allium fistulosum L. and Vicia faba L. It is established that at these concentrations alpha-tocopherol exhibits a significant antimutagenic activity, decreasing the frequency of chromosome mutations more than by 40-50%. No changes resulting from the antimutagenic effect of alpha-tocopherol were observed in the spectrum of structual mutations of chromosomes.     

alpha-Tocopherol modifies tyrosine phosphorylation and capacitation-like state of cryopreserved porcine sperm

Sperm cryopreservation is associated with the production of reactive oxygen species (ROS) leading to membrane destabilization, which induces capacitation-like changes, increases protein tyrosine phosphorylation, and decreases their fertilizing ability. alpha-Tocopherol, a lipid peroxidation inhibitor, preserves the functionality of cryopreserved porcine sperm. Our aim was to evaluate the effect of alpha-tocopherol on sperm quality parameters as well as capacitation-like changes and modifications in protein tyrosine phosphorylation. Boar sperm frozen with or without 200 microg/mL of alpha-tocopherol were thawed and maintained at 37 degrees C for 10 min in BTS. Routine parameters of semen quality were evaluated by optical microscopy and membrane changes were determined by the epifluorescence chlortetracycline technique. Changes in protein tyrosine phosphorylation were examined using a specific anti-phosphotyrosine monoclonal antibody. Motility was higher (18%, P<0.05) in semen with alpha-tocopherol. Viability did not differ (P>0.05) between treatments. However, there was less (P<0.05) capacitation-like changes in semen with alpha-tocopherol compared to control samples. A MW 32 kDa tyrosine-phosphorylated protein was detected in extracts of cryopreserved sperm; the intensity of immunostaining was lower in semen containing alpha-tocopherol compared to the control (0.211+/-0.030 versus 0.441+/-0.034 arbitrary units). Additionally, this band was not detected in fresh sperm. The addition of alpha-tocopherol to the extender prior to cryopreservation of boar semen protected sperm membranes against oxidative damage and reduced both tyrosine phosphorylation and the capacitation-like state.     

Lipid peroxidation and covalent binding in the early functional impairment of liver Golgi apparatus by carbon tetrachloride

The onset of the lipoprotein secretory block provoked by CCl4 in the whole animal was monitored after purification of liver Golgi membranes. Both lipid transit through the apparatus and hexosylation of the lipoprotein are markedly inhibited 5-15 min after poisoning. Pre-treating the animal with alpha-tocopherol, shown to prevent lipid peroxidation without modifying the covalent binding due to CCl4 metabolites, affords little protection against lipid accumulation in the Golgi, but total preservation of galactosyl transferase activity. While haloalkylation therefore appears to be the major mechanism of damage in the early phases of CCl4-induced derangement of lipid secretion, lipid peroxidation is probably more involved later; this is indicated by the marked, though never complete, protection against fatty liver afforded at 24 h after CCl4 poisoning by supplementation of the membrane with alpha-tocopherol.     

Estrogen as a growth factor to central nervous cells: Estrogen treatment promotes development of acetylcholinesterase-positive basal forebrain neurons transplanted in the anterior eye chamber

3n a previous report, we demonstrated in vivo ameliorating effects of conjugated estrogen in women suffering from senile dementia-Alzheimer's type. To investigate the effects of estrogen on the growth of cholinergic neurons, the present study was performed using rat cholinergic tissue implanted into the anterior chamber of the eye. Fetal diagonal band tissue containing cholinergic neurons was grafted into the anterior eye chamber of adult female rats that had either been treated or not with 2 mg estradiol valerate injected every 3 days after oophrectomy. Two and four weeks after transplantation, the axonal and/or dendritic growth of cholinergic neurons in the graft was studied using acetylcholinesterase histochemistry. At both times, acetylcholinesterase positive processes were densely distributed in the grafts of estradiol valerate treated rats, while in rats without estradiol valerate treatment acetylcholinesterase positive reaction was essentially localized only on the cell bodies. These findings were more obvious at 2 weeks after transplantation than at 4 weeks. These results suggest that estrogen acts on cholinergic neurons as a growth factor.     

The development and functioning of embryonic pancreatic islet cells in the anterior chamber of rats

In the present study the morphogenesis and differentiation processes in embryonic pancreatic gland implants into Wistar line rat anterior eye chamber have been investigated. The conditions therein were found to be favourable for the endocrine tissue functioning; a number of morphogenetic changes resulting in the formation of islet structure acting as a morphophysiological unit were noted as well. Endocrine cells possess some selective properties as compared to the exocrine tissue. Alloxan diabetic animals demonstrated the most optimum conditions for the endocrine cells development and functioning.