Hugo Rı́os scite author profile

J. Neurochem. (2010) 112, 854–869. Abstract Sleep apnea (SA) can be effectively managed in humans but it is recognized that when left untreated, SA causes long‐lasting changes in neuronal circuitry in the brain. Recent neuroimaging studies gave suggested that these neuronal changes are also present even in patients successfully treated for the acute effects of SA. The cellular mechanisms that account for these changes are not certain but animal models of intermittent hypoxia (IH) during sleep have shown neuronal death and impairment in learning and memory. Reactive gliosis has a drastic effect on neuronal survival and circuitry and in this study we examined the neuro‐glial response in brain areas affected by SA. Glial and neuronal alterations were analyzed after 1, 3, 5 and 10 days of exposure to IH (8 h/day during the sleep phase, cycles of 6 min each, 10–21% O2) and observed significant astroglial hyperplasia and hypertrophy in parietal brain cortex and hippocampus by studying gliofibrillary acidic protein, Vimentin, S100B and proliferating cell nuclear antigen expression. In addition, altered morphology, reduced dendrite branching and caspase activation were observed in the CA‐1 hippocampal and cortical (layers IV–V) pyramidal neurons at short exposure times (1–3 days). Surprisingly, longer exposure to IH reduced the neuronal death rate and increased neuronal branching in the presence of persistent reactive gliosis. Up‐regulation of hypoxia inducible factor 1 alpha (HIF‐1α) and mdr‐1, a HIF‐1α target gene, were observed and increased expression of receptor for advanced end glycated products and its binding partner S100B were also noted. Our results show that a low number of hypoxic cycles induce reactive gliosis and neuronal death whereas continuous exposure to IH cycles reduced the rate of neuronal death and induced neuronal branching on surviving neurons. We hypothesize that HIF‐1α and S100B glial factor may improve neuronal survival under hypoxic conditions and propose that the death/survival/re‐growth process observed here may underlie brain circuitry changes in humans with SA.

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Stress induced cognitive deficit is differentially modulated in BALB/c and C57Bl/6 mice

Palumbo

Canzobre²,

Pascuan

et al. 2010

Journal of Neuroimmunology

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Loss of hippocampal neuronal nitric oxide synthase contributes to the stress‐related deficit in learning and memory

Palumbo

Fosser

Rı́os

et al. 2007

Journal of Neurochemistry

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Nitric oxide (NO) has been involved in many pathophysiolog-ical brain processes. However, the exact role of NO in the cognitive deficit associated to chronic stress exposure has not been elucidated. In this study, we investigated the participation of hippocampal NO production and their regulation by protein kinase C (PKC) in the memory impairment induced in mice subjected to chronic mild stress model (CMS). CMS mice showed a poor learning performance in both open field and passive avoidance inhibitory task respect to control mice. Histological studies showed a morphological alteration in the hippocampus of CMS mice. On the other hand, chronic stress induced a diminished NO production by neuronal nitric oxide synthase (nNOS) correlated with an increment in gamma and zeta PKC isoenzymes. Partial restoration of nNOS activity was obtained after PKC activity blockade. NO production by inducible nictric oxide synthase isoform was not detected. The magnitude of oxidative stress, evaluated by reactive oxygen species production, after excitotoxic levels of NMDA was increased in hippocampus of CMS mice. Moreover, ROS formation was higher in the presence of nNOS inhibitor in both control and CMS mice. Finally, treatment of mice with nNOS inhibitors results in behavioural alterations similar to those observed in CMS animals. These findings suggest a novel role for nNOS showing protective activity against insults that trigger tissue toxicity leading to memory impairments.

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Increased activity of tyrosine hydroxylase in the cerebellum of the X-irradiated dystonic rat

Dopico

Rı́os

et al. 1990

Molecular and Chemical Neuropathology

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The exposure of the cephalic end of rats to repeated doses of X-irradiation (150 rad) immediately after birth induces a long-term increase in the noradrenaline (NA) content of cerebellum (CE) (+ 37.8%), and a decrease in cerebellar weight (65.2% of controls), which results in an increased NA concentration (+ 109%). This increase in the neurotransmitter level is accompanied by a dystonic syndrome and histological abnormalities: Purkinje cells (the target cells for NA afferents to CE) fail to arrange in a characteristic monolayer, and their primary dendritic tree appears randomly oriented. The injection of reserpine 0.9 and 1.2 mg/kg ip to adult rats for 18 h depletes cerebellar NA content in both controls (15.7 +/- 4 ng/CE and 2.8 +/- 1.5 ng/CE, respectively) and X-irradiated rats (17.1 +/- 1 ng/CE and 8.3 +/- 2 ng/CE, respectively). The activity of tyrosine hydroxylase (TH) in CE of adult rats, measured by an in vitro assay, is significantly increased in neonatally X-irradiated animals when compared to age-matched controls (16.4 +/- 1.4 vs 6.32 +/- 0.6 nmol CO2/h/mg prot., p less than 0.01). As observed for NA levels, a net increase in TH activity induced by the ionizing radiation is also measured: 308.9 +/- 23.8 vs 408.2 +/- 21.5 nmol CO2/h/CE, p less than 0.01 (controls and X-treated, respectively). These results suggest that X-irradiation at birth may induce an abnormal sprouting of noradrenergic afferents to CE. The possibility that these changes represent a response of the NA system to the dystonic syndrome is discussed.

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Long-lasting effects of neonatal ionizing radiation exposure on spatial memory and anxiety-like behavior

Cáceres

Rı́os

Guelman

2009

Ecotoxicology and Environmental Safety

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Hugo Rı́os

Intermittent hypoxia during sleep induces reactive gliosis and limited neuronal death in rats: implications for sleep apnea

Stress induced cognitive deficit is differentially modulated in BALB/c and C57Bl/6 mice

Loss of hippocampal neuronal nitric oxide synthase contributes to the stress‐related deficit in learning and memory

Increased activity of tyrosine hydroxylase in the cerebellum of the X-irradiated dystonic rat

Long-lasting effects of neonatal ionizing radiation exposure on spatial memory and anxiety-like behavior

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