Ontogenetic peculiarities of regulation of apoptosis of hypothalamic neurosecretory cells in TNF-knockout mice

Tumor necrosis factor (TNF) participates in regulation of many processes, including carcinogenesis and apoptosis. However, at present, there are practically no studies on peculiarities of apoptosis control in tnf-knockout (tnf-/-) mice. These mice develop without morphologic abnormalities, but they seem to have impairment of many biological processes, such as inflammation, programmed cell death, etc. Therefore, the goal of our work was to study possible pathways of regulation of apoptosis in the absence of TNF in neurosecretory cells (NSC) of young and old mice. For this purpose, we determined immunohistochemically expression of apoptosis markers caspase-8, caspase-9, Bax, Bcl-2, Mcl-1, neuropeptide vasopressin and the apoptosis level in hypothalamus of tnf-knockout mice of different ages as compared with mice with unchanged level of TNF synthesis. It was shown that the apoptosis activation observed during aging did not depend on the tnf gene and that apoptosis at aging was caspase-dependent. It was revealed that at aging in mouse NSC the external cell death pathway with participation of caspase-8 is activated. The pathways mediating cell death in different neurosecretory centers at aging are different. Thus, in supraoptic nucleus (SON), in all studied animal groups, an important cause of the NSC apoptosis is Bax. In paraventricular nucleus (PVN), of the greater importance is a decrease of the anti-apoptotic protection. Hence, misbalance of synthesis of proteins of the Bcl-2 family plays an important role in development of senescent apoptosis.     

Hypothalamo-pituitary neurosecretory system of the Northern redbacked vole Clethrionomys rutilus in the course of population cycle

Hypothalamo-pituitary neurosecretory system (HPNS) of the Northern redbacked vole, Clethrionomys rutilus was studied at different stages of the population cycle using paraldehyde-fuchsin staining and immunohistochemical revealing of vasopressin and oxytocin. We found at the stages of high voles number (peak and recession), an increase of vasopressin synthesis in the neurosecretory cells (NSC) of paraventricular (PVN) and supraoptic (SON) nuclei, as well as its active transport and release to the portal capillaries of the outer zone of median eminence (ME). At the stages of low voles number (depression and growth) was demonstrated that level of oxytocin synthesis in the NSC of SON was high and moderate in the NSC of PVN, which was accompanied by an extensive release of oxytocin to capillaries of the posterior pituitary (PP). Increased supply of vasopressin to portal blood flow of the vole pituitary in conditions of overpopulation is suggested to have highly stimulating influence on adrenocorticotropic function of pituitary, which negatively affects the reproductive function of the voles and leads to a decrease of their number. At the stages of low number of population in conditions favoring the life of the voles, the increased supply of oxytocin to the systemic blood flow stimulates the reproductive behavior of the voles, which results in rise of their population during this period.     

Effect of Interferon-Alpha on Mouse Hypothalamic-Pituitary-Adrenocortical System in Aging

The state of the hypothalamic-pituitary-adrenocortical system (HPAS) in aged mice was compared with that in young mice after administration of interferon-alpha (IA). In the aged mice, IA produced an increase of morpho-functional activity of neurosecretory cells (NSC) of hypothalamic paraventricular nucleus. In the young mice, no effects of IA on neuroendocrine centers (paraventricular and supraoptic nuclei) were found, but an increase of the number of apoptotic cells in the adrenal cortex was revealed. The differences in the IA effects can be due to age-related changes revealed in the HPAS. They consist in intact old animals in a decrease of functional activity of hypothalamic centers as a result of loss of NSC (an increase of apoptosis level) with a simultaneous rise of activity of adrenal cortex, which seems to have a compensatory character. Thus, in aging, first of all, function of the central part of the HPAS decreases, which subsequently might lead to age-related changes in the peripheral link of the endocrine system. The results obtained indicate that the effect of IA on the HPAS depends on the stage of ontogenesis.     

Participation of Catecholamines and Nitric Oxide in Regulation of Apoptosis in Nonapeptidergic Neurons of the Rat Hypothalamus

The goal of this work was to study effects of blockade of catecholamine (CA) synthesis on activation of neuronal NO synthase (nNOS) and to elucidate the role of NO in activation of pro- and anti-apoptotic signal proteins in nonapeptidergic neurons of supraoptic (SON) and paraventricular (PVN) nuclei of hypothalamus. The experiment was carried out on adult male Wistar rats. Dehydration for 5 days was used as an apoptosis-activating factor in vasopressinergic neurosecretory cells of SON and PVN of hypothalamus in adult rats. To find out the role of CA, a part of the animals subjected to dehydration were administered intraperitoneally, for the last 3 consecutive experimental days, with an inhibitor of CA synthesis, -methyl-p-tyrosine (-MT) at a dose of 200 mg/kg body weight. A marker of the programmed cell death initiation, pro-apoptotic protein caspase-9, as well as anti-apoptotic protein bcl-2 and nNOS, were revealed using an immunohistochemical technique. Evaluation of immunopositive substance (nNOS, caspase-9, and bcl-2) in neurosecretory cells of SON and PVN were carried out quantitatively by determination of optical density of the stained material in perikarya, using a computerized digital television image analyzer and software PhotoM. On comparing the nNOS amount with the level of pro- and anti-apoptotic protein expression, we have come to the conclusion that a decrease of the brain CA level increases the nNOS and caspase-9 expression. This allows suggesting that an increased level of NO mediates activation of the pro-apoptotic protein caspase-9 and initiates apoptosis in neurons of SON and PVN of hypothalamus. The lack of neuronal loss in SON under conditions of decrease CA synthesis on the background of dehydration might be due to increased expression of the anti-apoptotic protein bcl-2, whose increased elevated level seems to prevent the further rise of the caspase-9 level and, thereby, protects cells from death. An increased level of bcl-2 in neurons of PVN correlated with high amounts of nNOS and caspase-9, but there also was observed no cell loss. It is suggested that suppression of apoptosis in PVN is due either to the bcl-2 effects at later stages of apoptosis, or to other mechanisms that inhibit active caspases.     

Apoptosis and expression of vasopressin, insulin, and Bcl-2 in the neurosecretory system of aged mice

Despite a great many works dealing with apoptosis, the occurrence of this process at later stages of ontogenesis still is far from clear. The goal of the present study was to elucidate role of insulin and antiapoptotic protein Bcl-2 in initiation of apoptosis and preservation of functional status of hypothalamic neurosecretory cells of mice in aging. Neurosecretory cells of aged mice were shown to be eliminated intensively via apoptosis; however, functional activity (synthesis of vasopressin) of remaining cells is comparable with that in young animals. Hypothalamic neurosecretory cells were revealed to synthesize insulin, but its content in neurons of old animals decreases in correlation with initiation of apoptosis. It was shown that protein Bcl-2 in neurons of aged mice did not prevent initiation of apoptosis. It was also established that α-interferon had no apoptosis-protective effect to hypothalamic neurons in aging and suppressed synthesis of vasopressin, insulin, and Bcl-2 in cells of young and old mice.     

Rhythmicity of the activity of the supraoptic and paraventricular nuclei of the hypothalamus of the C57Bl mouse

Rhythmical changes in the activity of the neurosecretory processes have been compared in the supraoptic (SON) and paraventricular (PVN) nuclei in the C57Bl mice hypothalamus during vernal equinox. Parts of the neurosecretory cells, being at stages of synthesis, excretion and accumulation of secrete, volumes of the cell nuclei and nucleoli survey as criteria of their activity. Similar feature for the rhythmic of both nuclei studied is the highest activation of the processes during day time, when mice are resting; this is demonstrated as the maximal amount of actively synthesizing cells, maximal volumes of the cell nuclei and nucleoli. The peculiarities of the rhythmic display in the activity is manifested as a greater ability of the SON cells to accumulate neurosecrete. The accumulation of the secretory material in the SON cells precedes to the period of its maximal activity (1-7 PM) characterized: by making the cells free from the secrete and by a maximal increasing the volume of the nucleoli. In the PVN intensified display of the activity is noted at early hours of the day, and the amount of the cells not containing the secrete--at 6 PM. Lack of the neurosecrete accumulation in the PVN cells speaks in favour of more steady than in the SON cells excretion of the secrete. This demonstrates a more even maintenance of neurohormones concentration in the organism.     

Fos protein expression in mouse hypothalamic paraventricular (PVN) and supraoptic (SON) nuclei upon osmotic stimulus: colocalization with vasopressin, oxytocin, and tyrosine hydroxylase

The quantity and topography of activated vasopressin (AVP), oxytocin (OXY), and tyrosine hydroxylase (TH) neurons were studied immunohistochemically in the anterior, middle, and posterior portions of the PVN and SON in mice 60 min after a single injection of hypertonic saline (HS, 400 microl 1.5M, i.p.). Fos-neuropeptide double-stainings revealed: (1) Fos expression in each portion of the PVN and SON; (2) maximal number of Fos-AVP (79 cells) and Fos-OXY (50 cells) double-labelings in the middle portion of the PVN; (3) low number of Fos-TH perikarya in the PVN and their lack in the SON; (4) similar incidence (around 50%) of Fos-AVP and Fos-OXY perikarya in the SON; and (5) presence of activated AVP, OXY, and TH neurons in the periventricular, subependymal, and sub-PVN zones of the PVN. Topographic analysis revealed that the majority of AVP neurons expressing Fos occupied the dorsolateral and central part of the middle portion of the PVN. In the same PVN portion, Fos-OXY neurons occurred in similar frequency, however, they were primarily distributed along the lateral and medial margins of the PVN. In the SON, Fos-OXY cells occupied mainly its dorsal, while Fos-AVP cells predominated in its ventral part. The data clearly indicate that HS is not a selective stimulus neither for PVN nor SON itself and provide evidence that both PVN and SON AVP and OXY cells play important role in the mediation of signals induced by HS. In addition, the limited number of AVP, OXY, and TH neurons activated by HS may account for their differential functional specializations selective for stress/osmotic circuits activated by HS.     

Functional difference between the magnocellular neurosecretory nuclei of the rat hypothalamus

The supraoptic, paraventricular, and postoptic nuclei (SON, PVN, and PON, respectively) of the hypothalamus were studied under conditions of 3 months training of rats to hypoxia (exposure for 6 h daily in a low pressure chamber under 7600m of simulated altitude). All the three nuclei were activated during the first 5 days, and then the state of the SON cells normalized. Functional activity of the PVN and PON decreased (the nucleolar volume of the neurosecretory cells diminished to 70--80%, the amount of the neurosecretory substance in the cells and the posterior lobe of the hypophysis was reduced). Such a decreased activity of the PVN and PON persisted till the end of the experiment. A positive correlation of the thyroid epithelium height and the nucleolar volume of the PVN and PON cells was established for both the PVN (r=0.81, P less than 0.05) and the PON (r=0.82; P less than 0.05); no significant correlation was revealed for the SON (r=0.51; P less than 0.05). Thus, functional similarity of the PVN and the PON, and some peculiarities in the SON reaction under conditions of the experiment described was demonstrated.     

Immunocytochemical observations of corticotropin-releasing-factor-containing neurons in the rat hypothalamus with special reference to neuronal communication

Synapses between neurons with corticotropin-releasing-factor-(CRF)-like immunoreactivities and other immunonegative neurons in the hypothalamus of colchicine-treated rats, especially in the paraventricular nucleus (PVN) and the supraoptic nucleus (SON) were observed by immunocytochemistry using CRF antiserum. The immunoreactive nerve cell bodies and fibers were numerous in both the PVN and the SON. The CRF-containing neurons had synaptic contacts with immunonegative axon terminals containing a large number of clear synaptic vesicles alone or combined with a few dense-cored vesicles. We also found CRF-like immunoreactive axon terminals making synaptic contacts with other immunonegative neuronal cell bodies and fibers. And since some postsynaptic immunonegative neurons contained many large neurosecretory granules, they are considered to be magnocellular neurosecretory cells. These findings suggest that CRF functions as a neurotransmitter and/or modulator in addition to its function as a hormone.     

Regulation of Apoptosis in Nonapeptidergic Neurons of Rat Hypothalamus by Catecholamines in Experiments in vitro

Effects of noradrenaline (NA) and dopamine (DA) on apoptosis of nonapeptidergic neurons of supraoptic (SON) and paraventricular (PVN) nuclei of hypothalamus of male Wistar rats was studied in experiments in vitro. Incubation of hypothalamic sections in the medium with added NA was shown to induce an increase of the amount of pro-apoptotic protein caspase-9 in the nonapeptidergic neurons of the SON and PVN. A comparison of the level of neuronal NO-synthase with the level of caspase-9 expression in these neurons allows concluding that NA leads to initiation of apoptosis in neurons of the SON with mediation by nitric oxide (NO). In the PVN, the NA-induced initiation of apoptosis does not depend on the NO level. Addition of DA to the incubation medium results in an increase of the caspase-9 amount only in PVN neurons regardless of the NO content. The absence of neuronal death after the NA-induced increase of the caspase-9 level in the cells of SON and PVN seems to be due to increased expression of the anti-apoptotic protein bcl-2. Protection of the PVN neurons from death after addition of DA to the incubation medium is probably independent of the expression level of bcl-2. Thus, in the nonapeptidergic neurons of the SON and PVN, which are related by origin and by performed functions, modulation of the process of apoptosis by elevated concentrations of NA and DA is realized by different mechanisms.     

Gomori-positive elements of the hypothalamo-hypophyseal neurosecretory system of the rat (immunohistochemical study)

Vasopressiergic and oxytocinergic cells and fibers in the hypothalamo-hypophysial neurosecretory system have been identified by means of immuno-histochemical reactions. Vasopressin-producing cells localize mainly in the ventral part of the supraoptic nucleus (SON) and in the dorsolateral part of the paraventricular nucleus (PVN). Oxytocin-producing cells predominantly concentrate in the dorsal part of the SON and in the ventromedial part of the PVN. In the central part of the posterior pituitary lobe vasopressin-containing fibers are mainly situated, and in the peripheral parts--both oxytocin- and vasopressin-containing fibers are revealed. Owing to separate localization of vasopressin- and oxytocin-producing cells in the SON and especially in the PVN, in preparations stained with paraldehyde-fuchsin after Gomori-Gabe it is possible to analyse these cells separately.     

Immunocytochemical study of the hypothalamo-neurohypophysial system

Summary Antibodies raised against porcine neurophysin-I and porcine neurophysin-II using an injection regime in rabbits over a short time period, were used to localize neurophysin-I and neurophysin-II in hypothalamic neurosecretory elements of the domestic pig.In transverse section, neurophysin-II containing cells were more abundant in the dorsal medial region of the rostral supraoptic nucleus (SON) as compared with the distribution of neurophysin-I neurons. The main bulk of the cells of the SON were heavily stained for neurophysin-I with neurophysin-II containing cells positioned dorsal from the edge of the optic chiasma.Neurosecretory cells of the SON as seen in sagittal section also showed a differential staining for neurophysins-I and -II.Rostral regions of the pig paraventricular nucleus (PVN) contained magnocellular elements near the third ventricle which were stained predominantly for neurophysin-II. In regions corresponding to the caudal PVN there appeared two populations of neurosecretory neurons: (a) an area of cells adjacent to the third ventricle which contained neurophysin-II antigen and (b) a group of densely populated cells in the dorsal-lateral region which was stained for neurophysin-I.The results support the existence in the pig of at least two distinct populations of neurosecretory neurons corresponding to the neurophysin-I and neurophysin-II neurosecretory system.This work was financed by the Medical Research Council of New Zealand     

Effect of Block of Catecholamine Synthesis on the Functional State of Vasopressinergic Neurons of Hypothalamus in Dehydrated Rats

Effect of catecholamines (CA) on the functional state of vasopressin (VP)-ergic neurons of hypothalamus at their stimulation produced by dehydration (salt diet and water deprivation) was studied in in vivo experiments on adult male Wistar rats. Quantitative assessment of VP-immunopositive substance and digoxigenin-labeled VP mRNA (hybridization in situ) in neurosecretory cells of supraoptic (SON) and paraventricular (PVN) nuclei was performed using measurements of optical density of the stained substance in perykaria and a computer digital television analyzer with PhotoM software. Hybridization in situ technique allowed evaluating intensity of VP synthesis, while comparison of the amount of VP mRNA and VP-immunoreactive substance in neurons of SON and PVN made it possible to evaluate release of VP from perykaria. In PVN, repeated saline administration (0.25 ml per 100 g weight) and severe dehydration led to activation both of synthesis and of release of VP from cell perikarya. Use of -methyl-p-tyrosine, an inhibitor of catecholamine (CA) synthesis on the background of dehydration was not accompanied by changes of the functional state of VP-ergic neurons of PVN as compared with dehydrated animals. No changes in functional state of VP-ergic neurosecretory cells in SON were found after saline administration, whereas dehydration activated synthesis and release of VP from perykaria, like in VP-ergic neurons of PVN. Inhibition of CA synthesis on the background of dehydration led to activation of VP release by SON neurons without affecting the level of VP synthesis. The data obtained indicate that CA is able to suppress the VP release from neurons of SON, which is produced caused by activation of the VP-ergic system under conditions of dehydration.     

Immunohistochemical expression of Bcl-2, p53 and caspase-9 in hypothalamus magnocellular centers of nNOS knockout mice following water deprivation

Abstract

We studied the interactions between apoptosis regulator proteins (Bcl-2, p53 and caspase-9) and neuronal nitric oxide in vasopressinergic magnocellular centers of the hypothalamus using neuronal nitric oxide synthase (nNOS) gene knockout mice. nNOS gene deletion resulted in accumulation of Bcl-2, p53 and caspase-9 in the paraventricular (PVN) and supraoptic (SON) nuclei in controls. Dehydration increased the levels of all three apoptosis regulator proteins studied in nuclei of wild type mice. In the hypothalamus magnocellular centers of nNOS knockout mice, however, expression of Bcl-2, p53 and caspase-9 was unchanged after dehydration. The number of magnocellular neurons did not change in the SON and PVN of nNOS deficient mice compared to wild type, and after dehydration, cell death was not observed in either nucleus of wild type or knockout mice despite activation of apoptosis regulator protein expression. Thus, we demonstrated that gene disruption of nNOS prevents activation of Bcl-2, p53 and caspase-9 expression during water deprivation, and that nNOS deficiency did not affect survival of magnocellular neurons of the hypothalamus.     

Gastric distension-induced release of 5-HT stimulates c-fos expression in specific brain nuclei via 5-HT3 receptors in conscious rats

We examined c-fos expression in specific brain nuclei in response to gastric distension and investigated whether 5-HT released from enterochromaffin (EC) cells was involved in this response. The role of 5-HT3 receptors in this mechanism was also addressed. Release of 5-HT was examined in an ex vivo-perfused stomach model, whereas c-fos expression in brain nuclei induced by gastric distension was examined in a freely moving conscious rat model. Physiological levels of gastric distension stimulated the vascular release of 5-HT more than luminal release of 5-HT, and induced c-fos expression in the nucleus of the solitary tract (NTS), area postrema (AP), paraventricular nucleus (PVN), and supraoptic nucleus (SON). The c-fos expression in all these brain nuclei was blocked by truncal vagotomy as well as by perivagal capsaicin treatment, suggesting that vagal afferent pathways may mediate this response. Intravenous injection of 5-HT3 receptor antagonist granisetron blocked c-fos expression in all brain nuclei examined, although intracerebroventricular injection of granisetron had no effect, suggesting that 5-HT released from the stomach may activate 5-HT3 receptors located in the peripheral vagal afferent nerve terminals and then induce brain c-fos expression. c-fos Positive cells in the NTS were labeled with retrograde tracer fluorogold injected in the PVN, suggesting that neurons in the NTS activated by gastric distension project axons to the PVN. The present results suggest that gastric distension stimulates 5-HT release from the EC cells and the released 5-HT may activate 5-HT3 receptors located on the vagal afferent nerve terminals in the gastric wall leading to neuron activation in the NTS and AP and subsequent activation of neurons in the PVN and SON.     

Activation of vasopressinergic and oxytocinergic neurons during aging in the Wistar rat

The activity of the hypothalamo-neurohypophyseal system (HNS) was determined in male Wistar rats from 3 to 32 months of age. Plasma levels of vasopressin (AVP) and oxytocin (OXT) were measured by means of a radioimmunoassay. In addition, the distribution of the Golgi apparatus marker enzyme thiamine-pyrophosphatase (TPP-ase) was measured as a parameter for neurosecretory activity in the hypothalamic supraoptic and paraventricular nuclei (SON and PVN). Plasma levels of radioimmunoassayable AVP were increased in the 32-month-old animals. Plasma levels of radioimmunoassayable OXT in 32-month-old animals did not differe from the levels found in the youngest group, but were higher than in 11-month-old animals. Neurosecretory activity in the SON was similar in 3- and 32-month-old animals, whereas in the PVN neurosecretory activity was increased in the 32-month-old animals. Urine excretion decreased between 6 and 11 months of age and remained on the same level until 32 months of age. In other words, instead of a loss of HNS function as has been suggested in the literature, an increased neurosecretory activity was observed in aged rats.     

不同月龄长爪沙鼠视上核加压素分泌的实验

血管加压素(arginine vasopressin,AVP)是下丘脑视上核和室旁核神经元分泌的九肽激素。关于长爪沙鼠不同月龄加压素的分泌状况少见报道。作者采用光镜和电镜、免疫细胞化学和图像分析技术,对不同月龄长爪沙鼠视上核(SON)加压素能神经元加压素的分泌进行了比较研究。结果表明：在H．E染色切片中,各组均可见视上核团呈三角形。免疫细胞化学标记的各组长爪沙鼠中均可见AVP阳性细胞。图像分析数据经统计学处理表明：成龄长爪沙鼠血管加压素的分泌能力较强,幼龄及老龄组分泌能力减弱。     

Maturation of the human hypothalamo-hypophyseal neurosecretory system in prenatal ontogeny. A light-optical and electron microscopic study

The hypothalamic-hypophysial neurosecretory system (HHNS) was studied in the human foetuses from the age of 8 weeks till birth. The hypothalamus of 8 weeks old foetuses is weakly differentiated, no individual cell groups, so-called nuclei, are identified. The supraoptic (SON) and paraventricular (PVN) nuclei are identified from the age of 12 weeks on. The size of cell nuclei increases with the age. The Homori-positive granules were first found in some SON and PVN cell and in neurohypophysis in the 18 weeks old foetuses. It was shown under the electron microscope that the neurohypophysis of 8 weeks old foetuses consisted mainly of pituicytes with axons among the cytoplasmic processes of the latter. After the age of 10 weeks, the area of parenchyma of the neurohypophysis occupied by axons increased and typical elementary neurosecretory granules appeared in them. The data obtained are discussed with respect to the participation of HHNS in the regulation of water metabolism in the human foetuses.     

ACE2-mediated reduction of oxidative stress in the central nervous system is associated with improvement of autonomic function

Oxidative stress in the central nervous system mediates the increase in sympathetic tone that precedes the development of hypertension. We hypothesized that by transforming Angiotensin-II (AngII) into Ang-(1-7), ACE2 might reduce AngII-mediated oxidative stress in the brain and prevent autonomic dysfunction. To test this hypothesis, a relationship between ACE2 and oxidative stress was first confirmed in a mouse neuroblastoma cell line (Neuro2A cells) treated with AngII and infected with Ad-hACE2. ACE2 overexpression resulted in a reduction of reactive oxygen species (ROS) formation. In vivo, ACE2 knockout (ACE2(-/y)) mice and non-transgenic (NT) littermates were infused with AngII (10 days) and infected with Ad-hACE2 in the paraventricular nucleus (PVN). Baseline blood pressure (BP), AngII and brain ROS levels were not different between young mice (12 weeks). However, cardiac sympathetic tone, brain NADPH oxidase and SOD activities were significantly increased in ACE2(-/y). Post infusion, plasma and brain AngII levels were also significantly higher in ACE2(-/y), although BP was similarly increased in both genotypes. ROS formation in the PVN and RVLM was significantly higher in ACE2(-/y) mice following AngII infusion. Similar phenotypes, i.e. increased oxidative stress, exacerbated dysautonomia and hypertension, were also observed on baseline in mature ACE2(-/y) mice (48 weeks). ACE2 gene therapy to the PVN reduced AngII-mediated increase in NADPH oxidase activity and normalized cardiac dysautonomia in ACE2(-/y) mice. Altogether, these data indicate that ACE2 gene deletion promotes age-dependent oxidative stress, autonomic dysfunction and hypertension, while PVN-targeted ACE2 gene therapy decreases ROS formation via NADPH oxidase inhibition and improves autonomic function. Accordingly, ACE2 could represent a new target for the treatment of hypertension-associated dysautonomia and oxidative stress.     

Taurine reduces caspase-8 and caspase-9 expression induced by ischemia in the mouse hypothalamic nuclei

Summary. Taurine is a sulphur-containing amino acid abundant in the nervous system. It protects cells from ischemia-induced apoptosis, but the mechanism underlying this is not well established. The aim of our study was to explore the effects of taurine on two main pathways of apoptosis induced by ischemia: receptor-mediated and mitochondrial cell death. Brain slices containing the supraoptic (SON) and paraventricular (PVN) nuclei of the hypothalamus were incubated in vitro under control and simulated ischemic (oxygen-glucose deprivation for 30 min) conditions in the absence and presence of 20 mM taurine. Brain slices were harvested after the 180-min “postischemic” period and fixed in 4% paraformaldehyde. To estimate apoptosis, immunostaining was done for caspase-8 and caspase-9 in paraffin-embedded sections. Immunoreactive caspase-8 and caspase-9 cells were observed in SON and PVN in all experimental groups, but in the “ischemic” group the expression of caspase-8 and caspase-9 and the number of immunoreactive cells was significantly increased in both hypothalamic nuclei. Addition of taurine (20 mM) to the incubation medium induced a marked decrease in caspase-8 and caspase-9 immunoreactivity after ischemia in SON and PVN when compared with the taurine-untreated “ischemic” group. Taurine reduces ischemia-induced caspase-8 and caspase-9 expression, the key inductors of apoptosis in SON and PVN. Authors’ address: Dr. Andrey Taranukhin, Tampere Brain Research Center, Medical School, University of Tampere, FI-33014 Finland