99 research outputs found
Prenatal cocaine exposure alters alpha2 receptor expression in adolescent rats
BACKGROUND: Prenatal cocaine exposure produces attentional deficits which to persist through early childhood. Given the role of norepinephrine (NE) in attentional processes, we examined the forebrain NE systems from prenatal cocaine exposed rats. Cocaine was administered during pregnancy via the clinically relevant intravenous route of administration. Specifically, we measured α(2)-adrenergic receptor (α(2)-AR) density in adolescent (35-days-old) rats, using [(3)H]RX821002 (5 nM). RESULTS: Sex-specific alterations of α(2)-AR were found in the hippocampus and amygdala of the cocaine-exposed animals, as well as an upregulation of α(2)-AR in parietal cortex. CONCLUSION: These data suggest that prenatal cocaine exposure results in a persistent alteration in forebrain NE systems as indicated by alterations in receptor density. These neurochemical changes may underlie behavioral abnormalities observed in offspring attentional processes following prenatal exposure to cocaine
Soy Isoflavones Genistein and Daidzein Exert Anti-Apoptotic Actions via a Selective ER-mediated Mechanism in Neurons following HIV-1 Tat1–86 Exposure
HIV-1 viral protein Tat partially mediates the neural dysfunction and neuronal cell death associated with HIV-1 induced neurodegeneration and neurocognitive disorders. Soy isoflavones provide protection against various neurotoxic insults to maintain neuronal function and thus help preserve neurocognitive capacity.We demonstrate in primary cortical cell cultures that 17β-estradiol or isoflavones (genistein or daidzein) attenuate Tat(1-86)-induced expression of apoptotic proteins and subsequent cell death. Exposure of cultured neurons to the estrogen receptor antagonist ICI 182,780 abolished the anti-apoptotic actions of isoflavones. Use of ERα or ERβ specific antagonists determined the involvement of both ER isoforms in genistein and daidzein inhibition of caspase activity; ERβ selectively mediated downregulation of mitochondrial pro-apoptotic protein Bax. The findings suggest soy isoflavones effectively diminished HIV-1 Tat-induced apoptotic signaling.Collectively, our results suggest that soy isoflavones represent an adjunctive therapeutic option with combination anti-retroviral therapy (cART) to preserve neuronal functioning and sustain neurocognitive abilities of HIV-1 infected persons
Detoxification of Mitochondrial Oxidants and Apoptotic Signaling Are Facilitated by Thioredoxin-2 and Peroxiredoxin-3 during Hyperoxic Injury
Mitochondria play a fundamental role in the regulation of cell death during accumulation of oxidants. High concentrations of atmospheric oxygen (hyperoxia), used clinically to treat tissue hypoxia in premature newborns, is known to elicit oxidative stress and mitochondrial injury to pulmonary epithelial cells. A consequence of oxidative stress in mitochondria is the accumulation of peroxides which are detoxified by the dedicated mitochondrial thioredoxin system. This system is comprised of the oxidoreductase activities of peroxiredoxin-3 (Prx3), thioredoxin-2 (Trx2), and thioredoxin reductase-2 (TrxR2). The goal of this study was to understand the role of the mitochondrial thioredoxin system and mitochondrial injuries during hyperoxic exposure. Flow analysis of the redox-sensitive, mitochondrial-specific fluorophore, MitoSOX, indicated increased levels of mitochondrial oxidant formation in human adenocarcinoma cells cultured in 95% oxygen. Increased expression of Trx2 and TrxR2 in response to hyperoxia were not attributable to changes in mitochondrial mass, suggesting that hyperoxic upregulation of mitochondrial thioredoxins prevents accumulation of oxidized Prx3. Mitochondrial oxidoreductase activities were modulated through pharmacological inhibition of TrxR2 with auranofin and genetically through shRNA knockdown of Trx2 and Prx3. Diminished Trx2 and Prx3 expression was associated with accumulation of mitochondrial superoxide; however, only shRNA knockdown of Trx2 increased susceptibility to hyperoxic cell death and increased phosphorylation of apoptosis signal-regulating kinase-1 (ASK1). In conclusion, the mitochondrial thioredoxin system regulates hyperoxic-mediated death of pulmonary epithelial cells through detoxification of oxidants and regulation of redox-dependent apoptotic signaling
HIV-1 Tat Protein-Induced Rapid and Reversible Decrease in [3H]Dopamine Uptake: Dissociation of [3H]Dopamine Uptake and [3H]2β-Carbomethoxy-3-β-(4-fluorophenyl)tropane (WIN 35,428) Binding in Rat Striatal Synaptosomes
Human immunodeficiency virus (HIV)-1 Tat protein plays a key role in the
pathogenesis of both HIV-1-associated cognitive-motor disorder and drug abuse.
Dopamine (DA) transporter (DAT) function is strikingly altered in patients
with HIV-1-associated dementia and a history of chronic drug abuse. This study
is the first in vitro evaluation of potential mechanisms underlying the
effects of Tat protein on DAT function. Rat striatal synaptosomes were
incubated with recombinant Tat1–86 protein, and
[3H]DA uptake and the binding of
[3H]2β-carbomethoxy-3-β-(4-fluorophenyl)tropane (WIN
35,428) and
[3H]1-[2-(diphenylmethoxy)ethyl]-4-(3-phenylpropyl)-piperazine (GBR
12935) were determined. Tat decreased [3H]DA uptake,
[3H]WIN 35,428 binding, and [3H]GBR 12935 binding in a
time-dependent manner. The potency of Tat for inhibiting [3H]DA
uptake (Ki = 1.2 μM) was the same as that for
inhibiting [3H]GBR 12935 binding but 3-fold less than that for
inhibiting [3H]WIN 35,428 binding. Mutant Tat proteins did not
alter [3H]DA uptake. Kinetic analysis of [3H]DA uptake
revealed that Tat (1 or 10 μM) decreased the Vmax value
and increased the Km value in a dose-dependent manner. The
Vmax value, decreased by Tat (1 μM), returned to the
control level after washout of Tat, indicating that the inhibitory effect of
Tat on DA uptake was reversible. Saturation studies revealed that Tat
decreased the Bmax value and increased the
Kd value of [3H]WIN 35,428 binding, whereas Tat
decreased the Bmax value of [3H]GBR 12935
binding, without a change in the Kd value. These findings
provide new insight into understanding the pharmacological mechanisms of
Tat-induced dysfunction of the DAT in the dopaminergic system in HIV-infected
patients
HIV-1 and cocaine disrupt dopamine reuptake and medium spiny neurons in female rat striatum.
HIV-1 and addictive drugs, such as cocaine (COC), may act in combination to produce serious neurological complications. In the present experiments, striatal brain slices from HIV-1 transgenic (Tg) and F344 control female rats were studied. First, we examined dopamine (DA) reuptake in control, HIV-1, COC-treated (5µM) and HIV-1+COC-treated, striatal slices using fast scan cyclic voltammetry. COC-treated striatal slices from F344 control animals significantly increased DA reuptake time (T80), relative to untreated control slices. In contrast, in HIV-1 Tg striatal slices, DA reuptake time was extended by HIV-1, which was not further altered by COC treatment. Second, analysis of medium spiny neuronal populations from striatal brain slices found that controls treated with cocaine displayed increases in spine length, whereas cocaine treated HIV-1 slices displayed decreased spine length. Taken together, the current study provides evidence for dysfunction of the dopamine transporter (DAT) in mediating DA reuptake in HIV-1 Tg rats and limited responses to acute COC exposure. Collectively, dysfunction of the DAT reuptake and altered dendritic spine morphology of the MSNs, suggest a functional disruption of the dopamine system within the HIV-1 Tg rat
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