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- Creators: Newbern, Jason
- Creators: Olive, M. Foster
- Creators: Hilbert, Alexander Robert
- Creators: Roose, Cassandra Ann
The ERK1/2 cell signaling pathway is highly conserved and a prominent regulator of processes like cell proliferation, differentiation, and survival. During nervous system development, the ERK1/2 cascade is activated by the binding of growth factors to receptor tyrosine kinases, leading to the sequential phosphorylation of intracellular protein kinases in the pathway and eventually ERK1 and ERK2, the effectors of the pathway. Well-defined germline mutations resulting in hyperactive ERK1/2 signaling have been implicated in a group of neurodevelopmental disorders called RASopathies. RASopathic individuals often display features such as developmental delay, intellectual disability, cardio-facial abnormalities, and motor deficits. In addition, loss-of-function in ERK1/2 can lead to neurodevelopmental disorders such as autism spectrum disorder (ASD) and intellectual disability. To better understand the pathology of these neurodevelopmental disorders, the role of ERK1/2 must be examined during the development of specific neuronal and glial subtypes. In this study, we bred transgenic mice with conditional deletion of ERK1/2 in cholinergic neuronal populations to investigate whether ERK1/2 mediates the survival or activity of basal forebrain and striatal cholinergic neurons during postnatal development. By postnatal day 10, we found that ERK1/2 did not seem to mediate cholinergic neuron number within the basal forebrain or striatum. In addition, we showed that expression of FosB, a neuronal activity-dependent transcription factor and target of ERK1/2, was not yet observed in cholinergic neurons within either of these anatomical regions by P10. Finally, our preliminary data suggested that FosB expression within layer IV of the somatosensory cortex, a target domain for basal forebrain cholinergic projections, also did not appear to be mediated by ERK1/2 signaling. However, since cholinergic neuron development is not yet complete by P10, future work should explore whether ERK1/2 plays any role in the long-term survival and function of basal forebrain and striatal cholinergic neurons in adulthood. This will hopefully provide more insight into the pathology of neurodevelopmental disorders and inform future therapeutic strategies.
Use of psychostimulants, such as cocaine, is associated with an increased risk of human immunodeficiency virus (HIV) infection. Dopaminergic signaling within the nucleus accumbens (NAc) is critically implicated in both disease states, mediating the addictive and reinforcing effects of cocaine and perpetuating HIV replication throughout the central nervous system (CNS). Cocaine and HIV induce neurobehavioral deficits separately; however, little is known regarding how they interact to dysregulate neuroimmune function or how this impacts relapse vulnerability. We have previously shown that inhibition of dopamine D3 receptor (D3R) signaling using MC-25-41, a novel and highly selective D3R partial agonist, attenuates cocaine-seeking behavior. Here, we sought to characterize changes in neuroimmune function in a rat model of combined HIV and cocaine use disorders across abstinence and examined the therapeutic efficacy of MC-25-41 in the presence of this comorbidity. Male rats were systemically treated with the HIV protein gp120 after establishing a history of cocaine self-administration and then, following 21 days of abstinence, were administered a systemic injection of MC-25-41 (10 mg/kg) prior to cue reactivity testing. Glial fibrillary acidic protein (GFAP) and ionized calcium-binding adapter molecule 1 (Iba1) immunoreactivity were analyzed after 5 or 21 days of cocaine abstinence as an index of glial cell levels. We demonstrate that inhibition of D3R signaling significantly attenuates cue-induced cocaine seeking among control rats but not gp120-exposed rats. Moreover, we show that NAc core GFAP and Iba1 expression is impaired by 5 days of abstinence, which persists into protracted abstinence and cue reactivity testing. However, we also demonstrate that neither gp120 nor D3R inhibition significantly altered NAc core GFAP or Iba1 expression. Altogether, these results reveal significant changes in glial cell function across cocaine abstinence and unique behavioral interactions with gp120 may inhibit the effectiveness of medication regimens, which highlights the need to consider these comorbidities when treating HIV infection.