Browsing by Author "Lukkes, Jodi L."

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    Aberrant Neural Activity in Cortico-Striatal-Limbic Circuitry Underlies Behavioral Deficits in a Mouse Model of Neurofibromatosis Type 1
    (2022-05) Drozd, Hayley Paulina; McKinzie, David L.; Clapp, D. Wade; Shekhar, Anantha; Lukkes, Jodi L.; Lapish, Christopher L.; Block, Michelle L.
    Nearly 18% of children are diagnosed with developmental disabilities. Autism spectrum disorders (ASDs) and attention deficit hyperactivity disorder (ADHD) are increasingly common developmental disabilities, but neither is well understood. ADHD and ASD are both prevalent in the genetic disorder Neurofibromatosis type 1 (NF1) which impairs the Ras-MAPK/ERK pathway through mutation of the neurofibromin gene (NF1+/−). More broadly, syndromic forms of developmental disorders are often caused by mutations of proteins in pathways interconnected with Ras including TSC1/2, FMR1, and SynGAP. Of NF1 patients, around 30-50% are diagnosed with ASDs and more than 60% with ADHD. These studies are the first to show that male mice haploinsufficient for the Nf1 gene (Nf1+/−) exhibit deficits in behavioral inhibition in multiple contexts, a key feature of ADHD. They exhibit hyperactivity and impulsivity in an open field, delay discounting task, and cliff avoidance reaction test, rescuable through treatment with the clinically effective ADHD drug, guanfacine (α2A adrenergic receptor agonist). Previous experiments in our lab identified social deficits including deficits in consolidation of social memory. Using optogenetics and awake behaving electrode recordings, we explored the role of the cortico-striatal-limbic circuitry in impulsivity and in social deficits in male Nf1+/− mice. Manipulation of the prefrontal cortex, nucleus accumbens, or basolateral amygdala through optogenetics rescued social deficits. These studies are the first to record brain activity in a preclinical model of NF1 during impulsive behavior, finding broad spectrum changes across slow, delta, theta, and gamma oscillatory frequencies and decreased synchrony of the prefrontal cortex and nucleus accumbens during a delay discounting task. Overall, Nf1+/− male mice with deletion of a single NF1 gene recapitulate cognitive phenotypes of NF1 patients and are a useful model system to identify alterations in neural circuitry associated with ASD and ADHD.
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    Acute Administration of the Nonpathogenic, Saprophytic Bacterium, Mycobacterium vaccae, Induces Activation of Serotonergic Neurons in the Dorsal Raphe Nucleus and Antidepressant-Like Behavior in Association with Mild Hypothermia
    (Springer, 2018) Siebler, Philip H.; Heinze, Jared D.; Kienzle, Drake M.; Hale, Matthew W.; Lukkes, Jodi L.; Donner, Nina C.; Kopelman, Jared M.; Rodriguez, Orlando A.; Lowry, Christopher A.; Psychiatry, School of Medicine
    Peripheral immune activation can have profound physiologic and behavioral effects. One mechanism through which immune activation may affect physiology and behavior is through actions on brainstem neuromodulatory systems, such as serotonergic systems. To test this hypothesis, in Experiment 1, adult male BALB/c mice were implanted with telemetric recording devices and then immunized with Mycobacterium vaccae NCTC 11659 (0.1 mg, s.c.; Days - 28, - 14; N = 36). On Day 1, mice received an acute challenge with M. vaccae (0.1 mg, s.c.) or borate-buffered saline vehicle. Core body temperature and locomotor activity recordings were conducted during a 36 h period beginning 24 h prior to challenge; 12 h following acute challenge, mice were either tested in a 6-min forced swim test, or served as home cage controls (n = 9 per group). In Experiment 2, the protocol was repeated, but with the aim of assessing c-Fos expression in brainstem serotonergic neurons, assessed 90 min following exposure to forced swim (N = 32; n = 8 per group). In Experiment 1, acute M. vaccae challenge in M. vaccae-immunized mice, relative to vehicle-challenged controls, decreased locomotor activity and core body temperature measured 3 h following challenge, as measured by continuous telemetric recordings, and decreased immobility in the forced swim test measured 12 h following challenge. In Experiment 2, acute M. vaccae challenge in M. vaccae-immunized mice decreased home cage locomotion, in alignment with findings in Experiment 1, as measured by video-based behavioral analysis, and, among mice exposed to the forced swim test, increased c-Fos expression in subsets of serotonergic neurons within the dorsal raphe nucleus (DR) measured 13.5 h following challenge. Together, these data are consistent with the hypothesis that acute peripheral immune activation with a heat-killed preparation of M. vaccae transiently induces mild hypothermia in association with suppression of locomotor activity, activates subsets of serotonergic neurons in the DR, and induces antidepressant-like behavioral responses.
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    Negative consequences of early-life adversity on substance use as mediated by corticotropin-releasing factor modulation of serotonin activity
    (Elsevier, 2018-08-07) Forster, Gina L.; Anderson, Eden M.; Scholl, Jamie L.; Lukkes, Jodi L.; Watt, Michael J.; Psychiatry, School of Medicine
    Early-life adversity is associated with increased risk for substance abuse in later life, with women more likely to report past and current stress as a mediating factor in their substance use and relapse as compared to men. Preclinical models of neonatal and peri-adolescent (early through late adolescence) stress all support a direct relationship between experiences of early-life adversity and adult substance-related behaviors, and provide valuable information regarding the underlying neurobiology. This review will provide an overview of these animal models and how these paradigms alter drug and alcohol consumption and/or seeking in male and female adults. An introduction to the corticotropin-releasing factor (CRF) and serotonin systems, their development and their interactions at the level of the dorsal raphe will be provided, illustrating how this particular stress system is sexually dimorphic, and is well positioned to be affected by stressors early in development and throughout maturation. A model for CRF-serotonin interactions in the dorsal raphe and how these influence dopaminergic activity within the nucleus accumbens and subsequent reward-associated behaviors will be provided, and alterations to the activity of this system following early-life adversity will be identified. Overall, converging findings suggest that early-life adversity has long-term effects on the functioning of the CRF-serotonin system, highlighting a potentially important and targetable mediator linking stress to addiction. Future work should focus on identifying the exact mechanisms that promote long-term changes to the expression and activity of CRF receptors in the dorsal raphe. Moreover, it is important to clarify whether similar neurobiological mechanisms exist for males and females, given the sexual dimorphism both in CRF receptors and serotonin indices in the dorsal raphe and in the behavioral outcomes of early-life adversity.