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Dissecting the Effects of Different Pain Modalities and Oxycodone on Prodynorphin Expressing Neurons in the Mouse Prelimbic CortexZhou, Shudi 11 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Currently, changes to endogenous opioid circuits in various pain
modalities, including surgical and neuropathic pain, remain unclear. Dynorphin,
which is released by prodynorphin-expressing neurons (Pdyn+ neurons), is the
endogenous opioid ligand to kappa opioid receptors (KOR). Moreover, a recent
study has shown an increase in prodynorphin (Pdyn) mRNA expression in the
prelimbic cortex (PL) in a mouse model of chronic pain. However, alterations in
the activity of PL Pdyn-expressing neurons (PLPdyn+ neurons) in postoperative
and chronic pain have never been explored. Firstly, I found that the population of
PLPdyn+ neurons consists of both pyramidal and inhibitory subtypes. Secondly, I
found that one day after surgical incision of the mouse hind paw, the excitability
of pyramidal PLPdyn+ neurons was increased in both male and female mice, while
the excitability of inhibitory PLPdyn+ neurons was unchanged. However, when
postoperative pain behavior subsided, inhibitory PLPdyn+ neurons were
hyperexcitable in male mice, while pyramidal PLPdyn+ neurons were hypoexcitable
in female mice. Lastly, I dissected electrophysiological changes to PLPdyn+
neurons in the spared nerve injury (SNI) model of chronic neuropathic pain. At
both early and late stages of SNI pain development, increased excitability of
pyramidal PLPdyn+ neurons was detected in both male and female mice. However,
in both male and female mice, the excitability of inhibitory PLPdyn+ neurons decreased 3 days after SNI but was conversely increased when measured 14
days after SNI. My findings suggest that different subtypes of PLPdyn+ neurons
manifest distinct alterations in the development of different pain modalities in a
sex-specific manner.
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The Impact of Nandrolone Decanoate on Neuropeptidergic Mechanisms Related to Cognition, Aggression, Reward and DependenceMagnusson, Kristina January 2009 (has links)
The abuse of anabolic androgenic steroids (AAS) is becoming increasingly common and may result in a range of physiological as well as psychological effects such as altered behavior in terms of increased aggression, cognitive dysfunction and addictive behavior. AAS comprise testosterone and its derivatives, of which nandrolone is one of the more common. Previous studies have shown nandrolone-induced effects in male rats on peptide levels within the Substance P (SP) system and the dynorphinergic system; these effects may be linked to some of the reported behavior alterations. The studies presented in this thesis aimed to investigate the mechanisms underlying these peptide alterations and also to further investigate neuropeptidergic effects attributed to nandrolone administration. The results display significant effects on the enzymatic conversion of SP and Dynorphin A into their bioactive metabolites SP(1-7) and Leu-enkephalin-Arg6, respectively, as a result of nandrolone treatment. More profound investigations on the dynorphinergic system displayed effects on the kappa opioid receptor density in various brain regions. There was also a significant increase in the expression of the gene transcript of prodynorphin in the hippocampus, a brain region associated with cognitive processes. In addition, impaired spatial learning and memory in the Morris water maze task following nandrolone administration was encountered. The results provide further understanding regarding neuropeptidergic mechanisms underlying AAS-induced behavioral effects.
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