Relationship between platelet monoamine oxidase B activity and alleles at the MAOB locus

Platelet Serotonin (5-HT) Concentration, Platelet Monoamine Oxidase B (MAO-B) Activity and HTR2A, HTR2C, and MAOB Gene Polymorphisms in Asthma

The complex role of the serotonin system in respiratory function and inflammatory diseases such as asthma is unclear. Our study investigated platelet serotonin (5-HT) levels and platelet monoamine oxidase B (MAO-B) activity, as well as associations with HTR2A (rs6314; rs6313), HTR2C (rs3813929; rs518147), and MAOB (rs1799836; rs6651806) gene polymorphisms in 120 healthy individuals and 120 asthma patients of different severity and phenotypes. Platelet 5-HT concentration was significantly lower, while platelet MAO-B activity was considerably higher in asthma patients; however, they did not differ between patients with different asthma severity or phenotypes. Only the healthy subjects, but not the asthma patients, carrying the MAOB rs1799836 TT genotype had significantly lower platelet MAO-B activity than the C allele carriers. No significant differences in the frequency of the genotypes, alleles, or haplotypes for any of the investigated HTR2A, HTR2C and MAOB gene polymorphisms have been observed between asthma patients and healthy subjects or between patients with various asthma phenotypes. However, the carriers of the HTR2C rs518147 CC genotype or C allele were significantly less frequent in severe asthma patients than in the G allele carriers. Further studies are necessary to elucidate the involvement of the serotonergic system in asthma pathophysiology.

Platelet monoamine oxidase type B, MAOB intron 13 and MAOA-uVNTR polymorphism and symptoms of post-traumatic stress disorder

Post-traumatic stress disorder (PTSD), a disorder that develops following exposure to traumatic experience(s), is frequently associated with agitation, aggressive behavior and psychotic symptoms. Monoamine oxidase (MAO) degrades different biogenic amines and regulates mood, emotions and behavior, and has a role in the pathophysiology of various neuropsychiatric disorders. The aim of the study was to investigate the association between different symptoms occurring in PTSD [PTSD symptom severity assessed by the Clinician Administered PTSD Scale (CAPS), agitation and selected psychotic symptoms assessed by the Positive and Negative Syndrome Scale (PANSS)] and platelet MAO-B activity and/or genetic variants of MAOB rs1799836 and MAOA-uVNTR polymorphisms in 249 Croatian male veterans with PTSD. Our study revealed slightly higher platelet MAO-B activity in veterans with PTSD with more severe PTSD symptoms and in veterans with agitation, and significantly higher platelet MAO-B activity in veterans with more pronounced psychotic symptoms compared to veterans with less pronounced psychotic symptoms. Platelet MAO-B activity was associated with smoking but not with age. Genetic variants of MAOB rs1799836 and MAOA-uVNTR were not associated with agitation and selected psychotic symptoms in veterans with PTSD. A marginally significant association was found between MAOB rs1799836 polymorphism and severity of PTSD symptoms, but it was not confirmed since carriers of G or A allele of MAOB rs1799836 did not differ in their total CAPS scores. These findings suggest an association of platelet MAO-B activity, but a lack of association of MAOB rs1799836 and MAOA-uVNTR, with selected psychotic symptoms in ethnically homogenous veterans with PTSD.

Polymorphisms in genes encoding dopamine signalling pathway and risk of alcohol dependence: a systematic review

BACKGROUND

Alcohol dependence (AD) is one of the major elements that significantly influence drinking pattern that provoke the alcohol-induced organ damage. The structural and neurophysiologic abnormalities in the frontal lobes of chronic alcoholics were revealed by magnetic resonance imaging scans. It is well known that candidate genes involved in dopaminergic pathway are of immense interest to the researchers engaged in a wide range of addictive disorders. Dopaminergic pathway gene polymorphisms are being extensively studied with respect to addictive and behavioral disorders.

METHODS

From the broad literature available, the current review summarizes the specific polymorphisms of dopaminergic genes that play a role in alcohol dependence.

RESULTS

No evidence indicating any strong association between AD and polymorphisms of dopamine pathway genes has emerged from the literature.

DISCUSSION

Further studies are warranted, considering a range of alcohol-related traits to determine the genes that influence alcohol dependence.

Behavioral outcomes of monoamine oxidase deficiency: preclinical and clinical evidence

Monoamine oxidase (MAO) isoenzymes A and B are mitochondrial-bound proteins, catalyzing the oxidative deamination of monoamine neurotransmitters as well as xenobiotic amines. Although they derive from a common ancestral progenitor gene, are located at X-chromosome and display 70% structural identity, their substrate preference, regional distribution, and physiological role are divergent. In fact, while MAO-A has high affinity for serotonin and norepinephrine, MAO-B primarily serves the catabolism of 2-phenylethylamine (PEA) and contributes to the degradation of other trace amines and dopamine. Convergent lines of preclinical and clinical evidence indicate that variations in MAO enzymatic activity--due to either genetic or environmental factors--can exert a profound influence on behavioral regulation and play a role in the pathophysiology of a large spectrum of mental and neurodegenerative disorders, ranging from antisocial personality disorder to Parkinson's disease. Over the past few years, numerous advances have been made in our understanding of the phenotypical variations associated with genetic polymorphisms and mutations of the genes encoding for both isoenzymes. In particular, novel findings on the phenotypes of MAO-deficient mice are highlighting novel potential implications of both isoenzymes in a broad spectrum of mental disorders, ranging from autism and anxiety to impulse-control disorders and ADHD. These studies will lay the foundation for future research on the neurobiological and neurochemical bases of these pathological conditions, as well as the role of gene × environment interactions in the vulnerability to several mental disorders.

Monoamine oxidase (MAO) intron 13 polymorphism and platelet MAO-B activity in combat-related posttraumatic stress disorder

BACKGROUND

The neurobiology of posttraumatic stress disorder (PTSD) involves alterations in multiple neuroendocrine and neurotransmitter systems. Platelet monoamine oxidase (MAO-B) has been associated with susceptibility to various psychiatric disorders, personality traits and behaviors.

METHODS

Platelet MAO-B activity and MAO-B intron 13 polymorphism (a G/A substitution) were determined in male war veterans (n=106) with DSM-IV diagnosed current and chronic PTSD, divided into subgroups of PTSD patients with (n=28) or without (n=78) psychotic features, combat exposed veterans (n=41) who did not develop PTSD, and healthy control men (n=242).

RESULTS

Two-way ANOVAs revealed a significant effect of diagnosis and smoking, a significant effect of smoking, no significant effect of genotype, and no significant interaction between genotype, smoking or diagnosis, on platelet MAO-B activity. One-way ANOVAs showed significantly lower platelet MAO-B activity in smokers than in nonsmokers. After controlling for smoking, veterans with psychotic PTSD had significantly higher platelet MAO-B activity than veterans with or without PTSD, or healthy subjects.

LIMITATIONS

The results were obtained on peripheral biochemical marker, i.e. platelet MAO activity.

CONCLUSIONS

The MAO-B intron 13 polymorphism was not functional, and did not affect platelet MAO-B activity. The allele frequencies of the MAO-B genotype were similarly distributed among healthy controls and veterans with or without PTSD and/or psychotic symptoms. The results suggest that platelet MAO-B activity, controlled for smoking status, might be used as a peripheral marker of the psychotic symptoms in PTSD.

The lack of association between monoamine oxidase (MAO) intron 13 polymorphism and platelet MAO-B activity among men

Monoamine oxidase (MAO), a mitochondrial flavine containing enzyme, exists in two isoenzymes, MAO-A and MAO-B. Platelets contain MAO-B subtype, proposed to be a biomarker for different personality characteristics and vulnerability for substance abuse. The most common polymorphism of MAO-B gene, a single base change (A or G) occurs in intron 13. It has been proposed to be a functional polymorphism, controlling the activity of MAO-B in platelets. The aim of the study was to determine the association between platelet MAO-B activity and MAO-B intron 13 polymorphism in 225 racially and ethnically uniform healthy Caucasian men of the Croatian origin. Our results showed that platelet MAO-B activity did not differ between subjects subdivided into those with <<A-allele>> or <<G-allele>>. This polymorphism of the MAO-B gene did not control the activity of the MAO-B in platelets. Platelet MAO-B activity was associated only with the smoking status, and it was significantly decreased in smokers when compared to nonsmokers. No significant association was found between MAO-B polymorphism and smoking status. In healthy individuals of the Croatian origin, the studied MAO-B polymorphism showed a lack of functional importance in regulating MAO-B activity in platelets. Since different populations may vary in the association between functional polymorphism and the MAO-B activity, and the genotype of transcription factor AP-2 beta was reported to be associated with altered platelet MAO-B activity, and with specific personality traits, further studies on different populations should be conducted to elucidate the molecular mechanism/s regulating platelet MAO-B activity.

Association of variations in monoamine oxidases A and B with Parkinson's disease subgroups

Idiopathic Parkinson's disease (PD) is an age dependent, neurodegenerative disorder and is predominantly a sporadic disease. A minority of patients has a positive family history for PD and the majority of those families exhibit a complex mode of inheritance. The monoamine oxidases A and B (MAO-A and -B) genes, which are involved in serotonin and dopamine metabolism, are possible candidate genes for susceptibility to PD. Previous association studies of MAO-A and -B in PD have been inconclusive. To determine the role of MAO-A and -B in the development of PD, we screened a sample of 96 patients with familial PD, 164 with sporadic PD, and 180 matched normal controls with dinucleotide repeat markers in these genes. MAO-A and -B gene polymorphisms were strongly associated with total PD (p < 0.00001), familial PD (p < 0.00001), and sporadic PD (p < 0.00001). There were no significant differences between familial or sporadic PD with age of onset younger than 50 years compared to those with age of onset older than 51 years for both MAO-A and -B genes. There was no linkage disequilibrium between these genes in male PD and control groups. The frequency of common haplotypes from MAO-A and -B was different in PD and control group (p = 0.02). Our data indicate that MAO-A and -B may play a role in susceptibility to PD in our sample.

Genetic and environmental risk factors and their interactions for Parkinson's disease in a Chinese population

The interaction between genetic and environmental factors for PD was examined in a Chinese population. It was found that although the intron 2 MAOB (GT)(n) repeat polymorphism was not associated with PD in the population, a relationship might have been masked by the "protective effect" of tea drinking. In individuals who did not drink tea (<1 cup/day), the possession of short length < or = 178 bp (GT)(n) alleles conferred a borderline significant increased risk for PD (adjusted OR=1.47; C.I.=1.03-2.1). As the extent of tea consumption increased, the association between the < or = 178 bp allele and PD disappeared. This result suggests that the MAOB gene may be associated with PD in Chinese if the putative protective effect of tea drinking is taken into account. The significance of this finding is unclear as the study may be limited because of its marginal significance and limited numbers. However, it does demonstrate the importance of considering putative positive and negative environmental risk factors in any examination of genetic risk factors for PD.

Risk factors for the neurohumoral alterations underlying personality disturbances

Numerous studies have shown that MAO-B activity in platelets correlates with specific personality characteristics such as sensation seeking and impulsiveness. Low levels of platelet MAO as well as the personality traits associated with these low levels have been associated with type 2 alcoholism, recurrent criminality and antisocial violent behavior. Platelet MAO has a high degree of heritability and regulation of MAOB gene expression seems to explain most of the inter-individual differences in activity. The transcription factor family AP-2 is an important regulatory factor for neural gene expression and neural development, especially in midbrain structures, including the monoaminergic nuclei. In man, the gene encoding AP-2beta contains a polymorphic region in the second intron, consisting of a variable number of tandem repeats [CAAA](4-5). The long AP-2beta allele has previously been associated with specific personality traits as well as with binge-eating disorder characterized by an impulsive temperament. We have shown that males and females homozygous for the long AP-2beta allele display significantly lower platelet MAO activity compared to subjects with one or two short alleles. Thus, we find it likely that the personality disturbances previously linked to low platelet MAO activity could be associated with the presence of two long alleles of the AP-2beta gene. We suggest that the molecular mechanisms underlying the association between platelet MAO and vulnerability, e.g. substance abuse, may involve specific transcription factors that regulate the expression of midbrain monoamine structures as well as that of platelet MAO.

Genetic mechanisms of behavior--don't forget about the transcription factors

Major changes in psychiatric phenotypes due to genetic factors are seldom the result of single gene polymorphisms, but more often the result of several genetic mechanisms. In this millennium article we discuss the notion that the expression of numerous candidate genes could be regulated by the same transcription factors, and that polymorphisms in transcription factor genes might explain some phenotypes. We describe recent results of studies on the biological marker thrombocyte monoamine oxidase (trbc MAO) and the transcription factor AP-2beta. Low levels of trbc MAO is associated with temperamental characteristics such as sensation seeking and impulsiveness, and the enzyme is genetically regulated by specific transcriptional mechanisms. Transcription factor AP-2beta is important for the development of midbrain structures and AP-2beta has several binding sites in the regulatory regions of genes encoding key proteins in the monoamine transmitter systems. We have recently shown AP-2beta to be linked to personality, binge-eating disorder, treatment with antidepressant drugs, and also to trbc MAO. Regardless of whether transcriptions factors, such as AP-2beta, regulate the expression of eg, the number of monoamine neurons or a variety of candidate genes within the monoamine systems, or both, we would like to emphasize the role of transcription factors, besides polymorphisms in monoaminergic candidate genes, when explaining inter-individual differences in temperament and psychiatric vulnerability.

Pathological gambling and DNA polymorphic markers at MAO-A and MAO-B genes

This study was conducted to detect a possible association of MAOA and/or MAOB genes with pathological gambling (PG). DNA polymorphisms in MAOA and MAOB genes were screened by molecular analysis in 68 individuals (47 males and 21 females) meeting ICD-10 and DSM-IV criteria for pathological gambling and 68 healthy comparison controls matched for age and sex. There were no significant differences between pathological gamblers and healthy volunteers in overall allele distribution at the MAOA gene polymorphism. However there was a significant association between allele distribution and the subgroup of severe male gamblers (n = 31) compared to the males in the group of healthy volunteers (chi2 = 5246; df = 1; P < 0.05 [Bonferroni corrected]). No association was found between the MAOB polymorphic marker and PG. Allele variants at the MAOA, but not the MAOB gene may be a genetic liability factor in PG, at least in severe male gamblers. Molecular Psychiatry(2000) 5, 105-109.

Variations in the monoamine oxidase B (MAOB) gene are associated with Parkinson's disease

The monoamine oxidase B gene (MAOB; Xp15.21-4) is a candidate gene for Parkinson's disease (PD) given its role in dopamine metabolism and its possible role in the activation of neurotoxins. The association of MAOB polymorphisms (a [GT] repeat allelic variation in intron 2 and an A-G transition in intron 13) with Parkinson's disease (PD) was studied in an Australian cohort of 204 (male:female ratio 1.60) people with PD and 285 (male:female ratio 1.64) age- and gender-matched control subjects. Genomic DNA was extracted from venous blood and polymerase chain reaction was used to amplify the appropriate regions of the MAOB gene. The length of each (GT) repeat sequence was determined by 5% polyacrylamide denaturing gel electrophoresis and a DNA fragment analyzer, while the G-A genotype was determined using 2% agarose gel electrophoresis. The G-A polymorphism showed no association with PD (odds ratio [OR] = 0.80; p = 0.51; 95% confidence interval [CI] = 0.42-1.53). There was a significant difference in allele frequencies of the (GT) repeat allelic variation between patients and control subjects (chi2 = 20.09; p<0.01). After statistical adjustment for potential confounders using a logistic regression analysis, the (GT) repeat alleles > or =188 base pairs in the intron 2 marker of the MAOB gene were significantly associated with PD (OR = 4.60; p<0.00005; 95% CI = 1.97-10.77). The 186 base pair allele was also significantly associated with PD (OR = 1.85; p = 0.048; 95% CI = 1.01-3.42). The GT repeat in intron 2 of the MAOB gene is a powerful marker for PD in this large Australian cohort.

Transcription factor binding to the core promoter of the human monoamine oxidase B gene in the cerebral cortex and in blood cells

Many studies show that monoamine oxidase B in blood cells is a biological marker for personality characteristics such as sensation seeking. The mechanism underlying this association is so far not explored. In the present study we have performed electrophoretic mobility-shift assays to investigate the pattern of protein binding to a 150 bp fragment of the proximal 5'-flanking region of the human monoamine oxidase B gene. We compared the pattern using nuclear extracts from human brain and lymphocytes. Interestingly, a correlation was observed between monoamine oxidase B enzyme activity in blood cells (platelets) and the binding pattern of two uncharacterized transcription factors. These data are well in line with the long-standing notion that interindividual differences in platelet monoamine oxidase may represent differences in expression of the enzyme rather than genotypic variation.

Monoamine oxidases: from brain maps to physiology and transgenics to pathophysiology

The present report reviews recent advances in mapping the cellular sites of synthesis and catalytic activity, as well as age- and disease-related changes of monoamine oxidases A and B in the brain. A transgenic model of oxidative stress is also described. The relevance of these findings for the physiological and pathophysiological roles of monoamine oxidases is briefly discussed.

Platelet monoamine oxidase activity as a biological marker in a Swedish forensic psychiatric population

Platelet monoamine oxidase (MAO) activities were determined in 58 non-psychotic males at forensic psychiatric examinations. The aim of the study was to investigate the role of platelet MAO activity as a biological marker in forensic psychiatry, a clinical field with growing need of safe predictors for both treatment outcome and behavior. The study population was heterogeneous with respect to clinical and personality disorders and personality traits. The results confirmed the role of platelet MAO activity as a biological marker for stable personality traits such as impulsiveness, monotony avoidance and aggressiveness. Disorders with high frequencies of these personality traits such as borderline personality disorder and type II alcoholism could secondarily be associated with low levels of platelet MAO activity, whereas no such associations could be found regarding other clinical or personality disorders. Neither psychopathy as assessed by the means of PCL-R nor behavior such as abuse or criminality could be associated with platelet MAO activity. The conclusion is that, due to its close relationship with stable personality traits, platelet MAO activity serves a marker for vulnerability also in forensic psychiatric populations. On the other hand it is not a marker for clinical or personality disorders, or behavior per se.

I2-imidazoline binding sites and monoamine oxidase activity in human postmortem brain from patients with Parkinson's disease

I2-imidazoline binding site (I2BS) has been identified with a regulatory site located on a sub-population of monoamine oxidase (MAO)-A and -B. Previous studies showed a modification of MAO and I2BS in the elderly and in neurodegenerative processes such as Alzheimer's disease. In the present study, we studied the potential modification of I2 binding sites and monoamine oxidases in Parkinson's disease. Putamen and cerebral cortex were collected from 17 normal subjects (79 +/- 12 yr) and 16 patients (76 +/- 9 yr) affected by Parkinson's disease. In mitochondrial preparations, radioligand binding studies with [3H]idazoxan showed that putamen and frontal cortex express equivalent amount of I2BS. The density and affinity of I2BS were similar in normal subjects (putamen: Bmax = 207 +/- 58 fmol/mg of protein, Kd = 10.1 +/- 3.4 nM; cerebral cortex: Bmax = 193 +/- 54 fmol/mg of protein, Kd = 12.8 +/- 6.8 nM) and Parkinson's disease patients (putamen: Bmax = 193 +/- 60 fmol/mg of protein, Kd = 9.8 +/- 4.6 nM; cerebral cortex: Bmax = 199 +/- 49 fmol/mg of protein, Kd = 15.9 +/- 8.1 nM). The activity of total monoamine oxidase and monoamine oxidase B, measured by [14C]tyramine and [14C]phenylethylamine oxidation, respectively, were higher in putamen than in cerebral cortex. No differences have been detected in the enzyme activity between normal and pathological subjects. These data suggest that, although MAO and I2BS may play a role in the development of Parkinson's disease, they are not altered in the chronic phase of this disease.

Association study between schizophrenia and monoamine oxidase A and B DNA polymorphisms

Monoamine oxidases (MAO) A and B, which are encoded by two distinct genes located on the human X chromosome, are both involved in the oxidative metabolism of dopamine. Decreased levels of platelet MAO-B activity has been reported in patients with schizophrenia and genetic variation in MAO activity had been proposed as a significant factor in the etiology of this disease. We carried out an association study using two intragenic polymorphisms within the MAO-A and MAO-B genes in 110 schizophrenic patients and 87 control subjects. For each polymorphic marker, no significant difference in allelic frequencies was observed between patients and controls. Nevertheless, a trend toward an association between allele 1 of the MAO-B gene and paranoid schizophrenia was found. Our results do not support the hypothesis that inherited variants of MAO genes might play a major role in a genetic predisposition to schizophrenia. Since several previous reports found a low MAO-B platelet activity in patients with paranoid schizophrenia, the identification of polymorphisms related to enzyme activity would be useful.

Mutational analysis of the human MAOA gene

The monoamine oxidases (MAO-A and MAO-B) are the enzymes primarily responsible for the degradation of amine neurotransmitters, such as dopamine, norepinephrine, and serotonin. Wide variations in activity of these isozymes have been reported in control humans. The MAOA and MAOB genes are located next to each other in the p11.3-11.4 region of the human X chromosome. Our recent documentation of an MAO-A-deficiency state, apparently associated with impulsive aggressive behavior in males, has focused attention of genetic variations in the MAOA gene. In the present study variations in the coding sequence of the MAOA gene were evaluated by RT-PCR, SSCP, and sequencing a mRNA or genomic DNA in 40 control males with > 100-fold variations of MAO-A activity, as measured in cultured skin fibroblasts. Remarkable conservation of the coding sequence was found with only 5 polymorphisms observed. All but one of these were in the third codon position and thus did not alter the deduced amino acid sequence. The one amino acid alteration observed, lys --> arg, was neutral and should not affect the structure of the protein. This study demonstrates high conservation of coding sequence in the human MAOA gene in control males, and provides primer sets which can be used to search genomic DNA for mutations in this gene in males with neuropsychiatric conditions.

Monoamine oxidases and alcoholism. I. Studies in unrelated alcoholics and normal controls

Low platelet MAO activity has been associated with alcoholism. In order to evaluate the role of MAO genes in susceptibility to alcoholism, we have taken a biochemical and molecular genetic approach. The sample consisted of 133 alcoholic probands who were classified by subtypes of alcoholism and 92 normal controls. For those subjects typed for platelet MAO activity, alcoholics (N = 74) were found not to differ from the non-alcoholics controls (N = 34). Neither was there a significant difference between type I and type II alcoholics or between either subtype and normal controls. However, we do find significant differences between male and female alcoholics, but not between male and female controls. The allele frequency distribution for the MAO-A and MAO-B dinucleotide repeats is different between the alcoholic sample (N = 133) and the normal control sample (N = 92). In a two-way analysis of variance of MAO-B activity as a function of the allelic variation of each marker locus and diagnosis, there is no evidence for mean differences in activity levels for the different alleles. Our findings do not rule out a role for the MAO-B gene in controlling the enzyme activity because the dinucleotide repeats are located in introns.

Hereditary variations in monoamine oxidase as a risk factor for Parkinson's disease

Parkinson's disease (PD) is a common neurodegenerative disorder caused by loss of dopaminergic neurons in the brainstem. Recent studies suggest that several genes may have a role in determining individual susceptibility to this disease, and the degradative enzyme monoamine oxidase (MAO) has been implicated in the disease process. Wide differences in activity levels for both forms of this enzyme (MAO-A and MAO-B) exist in the human population, and levels of both are genetically determined. Here we have compared the frequency of haplotypes at the MAOA and MAOB loci on the X chromosome in 91 male patients with PD and 129 male controls. Alleles were marked using two restriction fragment length polymorphisms (RFLPs), a (GT)n repeat in the MAOA locus, and a (GT)n repeat in the MAOB locus. One particular haplotype marked by the RFLP's at MAOA was three times more frequent in patients with PD as compared with controls, and the overall distribution of these alleles was significantly different (p = 0.03) between these two groups. Another MAOA haplotype was about threefold more common in controls than in patients with PD (p = 0.005). No associations were observed between individual MAOB alleles and the disease state, but the frequency distribution for all alleles was significantly different in the two populations (p = 0.046). These findings support the idea that the MAO genes may be among the hereditary factors that influence susceptibility of individuals to PD.