The expression of many genes that have previously been associated with autism is abnormal also in violent psychopathy, a new study shows. The researchers used stem cell technology to analyse the expression of genes and proteins in the brain cells of psychopathic violent offenders. Published in Molecular Psychiatry, the findings may open up new avenues for the treatment of psychopathy. The study was carried out in collaboration between the University of Eastern Finland, the University of Helsinki and Karolinska Institutet in Sweden.

Psychopathy is an extreme form of antisocial behaviour, with about 1% prevalence in the general population, and 10-30% prevalence among incarcerated criminal offenders. Psychopathy is known to be strongly hereditary, but whether or not it is associated with abnormal expression of genes or proteins in neurons has remained unclear- up until now.

In the newly published study, the researchers used stem cell technology to analyse the expression of genes and proteins that have been associated with psychopathy. The study participants' skin cells were used to create pluripotent stem cells, which were then differentiated into cortical neurons and astrocytes. The study population comprised psychopathic violent offenders and healthy controls. Since psychopathy was accompanied by substance abuse, the study population also included non-psychopathic substance abusers. This made it possible for the researchers to determine which abnormalities were associated exclusively with psychopathy.

The study shows that psychopathy is associated with robust alterations in the expression of genes and immune-response-related molecular pathways. Several of these genes have also been linked to autism. In neurons, psychopathy was associated with marked upregulation of RPL10P9 and ZNF132, and downregulation of CDH5 and OPRD1. In astrocytes, RPL10P9 and MT-RNR2 were upregulated. The expression of these genes explained 30-92% of the variance of psychopathic symptoms. Psychopathy was also associated with altered expression of proteins related to glucose metabolism and the opioid system.

Several earlier studies have suggested that violent and psychotic behaviour are associated with alterations in glucose metabolism and opioidergic neurotransmission. The new findings support the idea of abnormal opioid system function being a factor underlying psychopathy. This suggests that using long-lasting injections of naltrexone or buprenorphine to balance the opioid system could be a feasible treatment for psychopathy.

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For further information, please contact:

Professor Jari Koistinaho, University of Eastern Finland, A.I. Virtanen Institute for Molecular Sciences and University of Helsinki, Neuroscience Centre, jari.koistinaho (a) uef.fi, tel. +358 40 3552427

Professor Jari Tiihonen, University of Eastern Finland, Niuvaniemi Hospital and Karolinska Institutet jari.tiihonen (a) niuva.fi or jari.tiihonen (a) ki.se, tel. +358 50 3418363.

Senior Researcher Sarka Lehtonen, University of Eastern Finland, A.I. Virtanen Institute for Molecular Sciences and University of Helsinki, Neuroscience Centre, sarka.lehtonen (a) uef.fi

Original article:

Neurobiological roots of psychopathy

Molecular Psychiatry (2019), published 27 August 2019. https:/ / www. nature. com/ articles/ s41380-019-0488-z

Jari Tiihonen, Marja Koskuvi, Markku Lähteenvuo, Pekka L.J. Virtanen, Ilkka Ojansuu, Olli Vaurio, Yanyan Gao, Ida Hyötyläinen, Katja A. Puttonen, Eila Repo-Tiihonen, Tiina Paunio, Marja-Riitta Rautiainen, Sasu Tyni, Jari Koistinaho, Šárka Lehtonen.