Medical Neuroscience Department Theses and Dissertations

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Browsing Medical Neuroscience Department Theses and Dissertations by Author "Atwood, Brady"

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    The Enduring Consequences of Prenatal Opioid Exposure
    (2022-02) Grecco, Gregory Giovanni; Sheets, Patrick; Atwood, Brady; Yamamoto, Bryan; McKinzie, David; Yoder, Karmen
    The opioid crisis has resulted in an unprecedented number of neonates born with prenatal opioid exposure; however, the long-term effects of opioid exposure on offspring behavior and neurodevelopment remain relatively unknown. I developed a translational mouse model of prenatal methadone exposure (PME) that resembles the typical pattern of opioid use by pregnant women who first use oxycodone then switch to methadone maintenance pharmacotherapy, and subsequently become pregnant while maintained on methadone. PME produced substantial impairments in offspring growth, sensorimotor milestone acquisition, and activity in an open field. Furthermore, these behavioral alterations were associated with significant disruptions in the primary motor cortex (M1). Notably, layer 5 pyramidal neurons of the M1 displayed significantly increased voltage sag which is primarily mediated by HCN1 channels. Interestingly, the α2-adrenergic receptor, a known modulator of HCN1 channels, displayed significantly increased expression in the M1 of PME animals. The locomotor activity in an open field was significantly reduced following in vivo pharmacological activation of the α2-adrenergic receptor with clonidine in PME offspring suggesting this may be therapeutic target for the hyperactivity associated with prenatal exposure to opioids. Previous work has also described an association between prenatal opioid exposure and alterations in opioid reward-related behavior; however, the effect of PME on alcohol reward remains undetermined. Given the widespread accessibility and usage, alcohol represents the most likely addictive substance the growing population of opioid exposed neonates will encounter as they age. I discovered that PME disrupts conditioned preference for alcohol, enhances the locomotor stimulating effects of alcohol, and increases alcohol consumption in a sex-dependent manner. This alcohol-reward phenotype in PME offspring was associated with altered excitatory neurotransmission and disrupted cannabinoid-mediated long-term depression (CB-LTD) in the dorsolateral striatum, an important substrate involved in compulsive drug use. Further work is required to determine the specific inputs at which CB-LTD is disrupted and if restoring this form of plasticity in PME animals prevents the enhanced alcohol addiction phenotype.
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    Spinophilin Cell Type-Specifically Mediates Metabotrophic Glutamate Receptor 5-dependent Excessive Grooming
    (2022-09) Morris, Cameron W.; Truitt, William; Atwood, Brady; Baucum, Anthony J., II; Ma, Yao-Ying; McKinzie, David
    Compulsive and repetitive behaviors in obsessive-compulsive spectrum disorders (OCSDs) are associated with perturbations in the sensorimotor striatum. Repetitive behaviors are associated with cell type-specific adaptations in striatal direct- and indirect-pathway medium spiny neurons (dMSNs and iMSNs, respectively). Furthermore, preclinical models for understanding OCSDs, such as constitutive knockout of disks large associated protein 3 (SAPAP3), suggest repetitive motor dysfunction, such as excessive grooming, is associated with increased metabotropic glutamate receptor 5 (mGluR5) activity that increases dMSN function relative to iMSNs in the sensorimotor striatum. However, MSN subtype-specific signaling mechanisms that mediate mGluR5-dependent adaptations underlying excessive grooming are not fully understood. Reversible phosphorylation of mGluR5’s C-terminal domain is one mechanism to regulate mGluR5 signaling, however, unlike kinases, promiscuous phosphatases require targeting proteins to shuttle them into contact with their targets. Therefore, phosphatase targeting proteins may be intimately involved in mediating mGluR5-dependent striatal adaptions underlying repetitive behaviors, such as excessive grooming in SAPAP3 deficient mice. Spinophilin, a major striatal postsynaptic phosphatase targeting protein, regulates striatal function, mGluR5 signaling, and forms a protein-protein interaction with SAPAP3 that is increased by mGluR5 co-expression. Therefore, we hypothesized that spinophilin expression in striatal medium spiny neurons mediates mGluR5-dependent excessive grooming. To test this, we used a novel conditional spinophilin mouse line combined with functional, behavioral, and molecular approaches to elucidate spinophilin's MSN subtype-specific contributions to rodent excessive grooming behavior associated with increased mGluR5 function. We found that loss of spinophilin in either MSN subtype abrogated plasticity in the sensorimotor striatum associated with increased mGluR5 function and decreased two models of excessive grooming associated with increased mGluR5 function—SAPAP3 deficient mice and global administration of a mGluR5-specific positive allosteric modulator (VU0360172). Additionally, we found that spinophilin’s protein interaction with mGluR5 correlates with grooming behavior and loss of spinophilin shifts mGluR5 interactions from lipid-raft associated proteins toward postsynaptic density proteins implicated in psychiatric disorders. Collectively, these results identify spinophilin as a novel striatal signaling hub molecule in MSNs that MSN subtype-specifically mediates striatal adaptations associated with repetitive motor dysfunction in psychiatric disorders.