Detention in Juvenile Correctional Facilities Is Associated with Higher Platelet Monoamine Oxidase B Activity in Males

Juvenile delinquency is related to several biological factors, yet very few vulnerability biomarkers have been identified. Previous data suggest that the enzyme monoamine oxidase B (MAO-B) influences several personality traits linked to the propensity to engage in delinquent behavior. Building on this evidence, we assessed whether conduct disorder (CD), juvenile delinquency adjudications, or detention in a correctional facility were associated with either platelet MAO-B activity or the MAOB rs1799836 polymorphism. The study enrolled 289 medication-free male youths, including 182 individuals detained in a correctional facility (with or without a diagnosis of CD). Of the remaining 107 participants, 26 subjects had a diagnosis of CD, and 81 were mentally healthy controls. Platelet MAO-B activity was determined by spectrophotofluorometry, while MAOB rs1799836 was genotyped using qPCR. Platelet MAO-B activity, corrected for age and smoking, was significantly higher in juvenile detainees (p < 0.001), irrespective of CD diagnosis. MAOB rs1799836 was not associated with platelet MAO-B activity or with detention in a correctional facility, CD diagnosis, or delinquent behavior. These data suggest that detention in a juvenile correctional facility increases platelet MAO-B activity in male adolescents. Future studies are needed to determine the mechanisms and functional significance of MAO-B peripheral elevation in juvenile male detainees.

Relapse of drunk driving and association with traffic accidents, alcohol-related problems and biomarkers of impulsivity

ObjectiveIndividual biological predispositions should play a role in risky driving behaviour. Platelet monoamine oxidase (MAO) activity, dopamine transporter gene (DAT1) and neuropeptide S receptor 1 (NPSR1) gene polymorphisms have been identified as markers of impulsivity, alcohol use and excessive risk-taking. We aimed to find out how this knowledge on neurobiology of impulsivity applies to drunk driving and traffic behaviour in general.MethodsWe have longitudinally examined the behaviour of drunk drivers (n = 203) and controls (n = 211) in traffic, in association with their alcohol-related problems, personality measures and the three biomarkers. We analysed differences between the subjects based on whether they had committed driving while impaired by alcohol (DWI) violation in a 10-year time period after recruitment or not and investigated further, what kind of predictive value do the different biomarkers have in committing DWI and other traffic violations and accidents.ResultsThe original drunk drivers group had lower platelet MAO activity but further DWI was not significantly associated with this measure. Being a NPSR1 T-allele carrier contributed to the risk of repeatedly committing DWI. DAT1 9R carriers in contrast were involved in more traffic accidents by their own fault (active accidents), compared to 10R homozygotes in the whole sample. All groups with DWI also had significantly more alcohol-related problems and higher scores in maladaptive impulsivity compared to controls without DWI.ConclusionsEstablished biological markers of alcohol use and impulsivity can be reliably associated with everyday traffic behaviour and help in contributing to the understanding of the need for more personalized prevention activities.

A Biomarker of Risk-Prone Behavioral Phenotype Correlates With Winning in a Game of Skill

The predisposition to take risk is a personality trait associated with dangerous or maladaptive behavior. Related to this, biomarkers associated with risk proneness such as low platelet monoamine oxidase (MAO) activity level are typically considered as prognostic for higher likelihood of undesirable behavior in real-life settings. In this study we explored whether this biomarker is also indicative of risk proneness in a game situation where serious real-life adaptations and motivations are absent or minimized and risk is more or less symbolic. We adapted a game of skill where in order to get a high score “risky” actions had to be taken by the players. Scores obtained in the game correlated with the (relatively low) platelet MAO activity. Our results show that (1) the same markers that are informative for real-life behavior and adaptations involving risk and/or sensorimotor skills based performance may be informative also in a game setting, (2) in specific circumstances biomarkers associated with predisposition to risk may be associated with success, and (3) the novel game of skill tested in this context has a potential to be developed to a model of risk-involving behavior allowing quantifiable dependent measures of performance and purposeful manipulation of variables without real adverse effects on health or social relations.

The state of biogenic monoamine metabolism and processes of their oxidative deamination in patients with gastrocancerogenesis

Biogenic monoamines metabolism and activity of oxidative deamination and their prognostic significance were investigated in patients with gastrocarcinogenesis. Investigation showed dynamic changes in serum levels of biogenic monoamines and activity of platelet MAO-B. Serum dopamine, epinephrine, norepinephrine, DOPA levels decreased, respectively, for II, III and IV stages of gastric cancer. An increase of serotonin and monoamine oxidase activity was observed. Analysis of obtained data showed inhibition of ergotropic body functions, activation of trophotropic processes and processes of biogenic amines deamination were observed in gastric cancer, which might be one of the major reasons for the accumulation of serum ammonia, aldehydes and peroxides-oxidizing agents and endotoxins.