Emily Hensleigh scite author profile

Rationale Neonatal maternal separation (MS) has been used to model the effects of early life stress in rodents. MS alters behavioral responses to a variety of abused drugs, but few studies have examined its effects on methamphetamine sensitivity. Objectives We sought to determine the effects of MS on locomotor and stereotyped responses to low-to-moderate doses of methamphetamine in male and female adolescent rats. Methods Male and female rat pups were subjected to three hours per day of MS on postnatal days (PN) 2–14, or a brief handling control procedure during the same period. During adolescence (approximately PN 40), all rats were tested for locomotor activity and stereotyped behavior in response to acute methamphetamine administration (0, 1.0 or 3.0 mg/kg, s.c.). Results MS rats of both sexes exhibited increased locomotor activity in a novel environment, relative to handled controls. MS increased the locomotor response to METH, and this effect occurred at different doses for male (3.0 mg/kg) and female (1.0 mg/kg) rats. MS also increased stereotyped behavior in response to METH (1.0 mg/kg) in both sexes. Conclusions MS enhances the locomotor response to METH in a dose- and sex-dependent manner. These results suggest that individuals with a history of early life stress may be particularly vulnerable to the psychostimulant effects of METH, even at relatively low doses.

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The effect of early environmental manipulation on locomotor sensitivity and methamphetamine conditioned place preference reward

Hensleigh

Pritchard

2014

Behavioural Brain Research

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Early life stress leads to several effects on neurological development, affecting health and well-being later in life. Instances of child abuse and neglect are associated with higher rates of depression, risk taking behavior, and an increased risk of drug abuse later in life. This study used repeated neonatal separation of rat pups as a model of early life stress. Rat pups were either handled and weighed as controls or separated for 180 minutes per day during postnatal days 2-8. In adulthood, male and female rats were tested for methamphetamine conditioned place preference reward and methamphetamine induced locomotor activity. Tissue samples were collected and mRNA was quantified for the norepinephrine transporter in the prefrontal cortex and the dopamine transporter in the nucleus accumbens. Results indicated rats given methamphetamine formed a conditioned place preference, but there was no effect of early separation or sex. Separated males showed heightened methamphetamine-induced locomotor activity, but there was no effect of early separation for females. Overall females were more active than males in response to both saline and methamphetamine. No differences in mRNA levels were observed across any conditions. These results suggest early neonatal separation affects methamphetamine-induced locomotor activity in a sex-dependent manner but has no effects on methamphetamine conditioned place preference.

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Sex, but not repeated maternal separation during the first postnatal week, influences novel object exploration and amphetamine sensitivity

Hensleigh

Smedley

Pritchard

2010

Developmental Psychobiology

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Sensation seeking and early life stress are both risk factors for developing substance use disorders. Neural adaptations resulting from early life stress may mediate individual differences in novelty responsiveness, and, in turn, contribute to drug abuse vulnerability. Animal models also demonstrate associations between novelty responsiveness or early life stress and increased sensitivity to psychostimulants. We investigated whether repeated maternal separation affects responses to novelty during adolescence and to amphetamine during adulthood, and whether maternal separation alters the relationship between these behavioral variables. Rat pups underwent separation (180 min/day) or control procedures (15 min/day) on postnatal days (PND) 2-8. Novel object exploration and amphetamine response were tested at PND 38 and 60, respectively. Adolescent males were less active in a novel environment and approached novel objects more frequently than females, but adult females showed greater amphetamine-induced locomotion. Maternal separation did not affect novelty responsiveness or amphetamine sensitivity. Locomotor activity in an inescapable, novel environment during adolescence predicted amphetamine-induced locomotor activity during adulthood in maternally separated rats, but not in controls. The results of this study suggest that adolescent responses to novelty may be particularly predictive of future substance abuse among survivors of early life trauma. Furthermore, sex differences in novelty and amphetamine responsiveness may complicate the relationship between these behavioral variables.

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Glucocorticoid receptor expression and sub-cellular localization in dopamine neurons of the rat midbrain

Hensleigh

Pritchard

2013

Neuroscience Letters

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Maternal separation increases methamphetamine-induced damage in the striatum in male, but not female rats

Hensleigh

Pritchard

2015

Behavioural Brain Research

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Methamphetamine abuse impacts the global economy through costs associated with drug enforcement, emergency room visits, and treatment. Previous research has demonstrated early life stress, such as childhood abuse, increases the likelihood of developing a substance abuse disorder. However, the effects of early life stress on neuronal damage induced by binge methamphetamine administration are unknown. We aimed to elucidate the effects of early life stress on methamphetamine induced dopamine damage in the striatum. Pups were separated from dams for three hours per day during the first two weeks of development or 15 minutes for control. In adulthood, rats received either subcutaneous 0.9% saline or 5.0 mg/kg METH injections every two hours for a total of four injections. Rectal temperatures were taken before the first injection and one hour after each subsequent injection. Seven days after treatment, rats were euthanized and striatum was collected for quantification of tyrosine hydroxylase (TH) and dopamine transporters (DAT) content by western blot. Methamphetamine significantly elevated core body temperature in males and decreased striatal DAT and TH content, and this effect was potentiated by early life stress. Females did not exhibit elevated core body temperatures or changes in DAT or TH in either condition. Results indicate maternal separation increases methamphetamine induced damage, and females are less susceptible to methamphetamine induced damage.

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Emily Hensleigh

Altered locomotor and stereotyped responses to acute methamphetamine in adolescent, maternally separated rats

The effect of early environmental manipulation on locomotor sensitivity and methamphetamine conditioned place preference reward

Sex, but not repeated maternal separation during the first postnatal week, influences novel object exploration and amphetamine sensitivity

Glucocorticoid receptor expression and sub-cellular localization in dopamine neurons of the rat midbrain

Maternal separation increases methamphetamine-induced damage in the striatum in male, but not female rats

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