Finding improved drug strategies for schizophrenia : Preclinical studies on lumateperone and sodium nitroprusside

Sammanfattning: Schizophrenia is a severe psychiatric disorder affecting approximately 20 million people worldwide. The disease consists of positive symptoms e.g. hallucinations, negative symptoms such as anhedonia, and cognitive deficits, e.g. impaired episodic memory. Most of the currently available treatment options for schizophrenia only target the positive symptoms, possess severe side effects and do not work for a large group of patients. In this thesis, the unique antipsychotic drug lumateperone and adjunctive treatment of sodium nitroprusside (SNP) to sub-maximal doses of conventional antipsychotic drugs are investigated in preclinical tests as novel treatment options for schizophrenia In paper I we showed that SNP enhances the antipsychotic-like effect of a sub-effective dose of risperidone in the conditioned avoidance response (CAR) test in rats. Moreover, by using microdialysis we showed that SNP significantly enhances risperidone-induced dopamine release in the rat medial prefrontal cortex (mPFC) but not in the nucleus accumbens, indicating that adjunct SNP could be used to improve the efficacy of antipsychotic drugs, while reducing their dose and subsequently lower the risk of side effects.In paper II we used microdialysis combined to the behavioral novel object recognition test in rats to show that the release of both dopamine and norepinephrine is increased in the ventral hippocampus in response to a novel object, suggesting that dopamine and norepinephrine may play a crucial role in recognition memory. In paper III we showed that SNP significantly enhanced the antipsychotic-like effect of sub-effective doses of olanzapine in the CAR test, but not of clozapine, this could be explained by the developed tolerance towards clozapine after repeated administrations.In paper IV we used enzyme-coated microelectrode arrays to show that lumateperone significantly increased cortical glutamate release in the mPFC of anaesthetized rats. By using electrophysiology, we also show that lumateperone facilitates NMDA and AMPA-mediated currents in a dopamine D1 dependent manner in layer V/VI pyramidal neurons in the mPFC of rats. Moreover, lumateperone increases dopamine release in the mPFC of freely moving rats as shown by using microdialysis. These mechanisms may improve cognitive deficits and contribute to the clinically demonstrated antidepressant effects of lumateperone. Taken together, these results show that lumateperone is a promising novel treatment option for schizophrenia, and that adjunct SNP treatment may allow for improved efficacy at maintained or even reduced dosage of conventional antipsychotic medication.