APOE2 allele increased in tardive dyskinesia

Ninety-seven inpatients with tardive dyskinesia (average AIMS score = 13), the majority of whom were schizophrenic, were studied. Forty patients were Caucasian, and 57 were African-American. The APOE genotypes of these patients were compared to previously published genotypes of controls and with previously published studies of APOE genotypes in patients with schizophrenia. There were no significant differences in APOE allele frequencies comparing the African-American tardive dyskinesia population and the African-American control groups. In contrast, significant (< 0.05) P values were obtained comparing the Caucasian tardive dyskinesia population to the Caucasian controls, when comparing allele frequencies and genotypic frequencies. This study suggests that Caucasians bearing an APOE2 allele are at increased risk of developing tardive dyskinesia, whereas African-Americans are not. APOE genotype-specific risks of both tardive dyskinesia and Alzheimer's disease that vary across populations could be due to recruitment of patients or controls or could be due to modifying effects of differing genetic or environmental backgrounds. The mechanism by which the APOE2 allele increases risk of tardive dyskinesia is not known. Further information about the mechanisms of increased risk of tardive dyskinesia could result in stratification of prescribing practices weighing the costs of medications against the relative risk of side effects.

Association of DRD2 polymorphisms and chlorpromazine-induced extrapyramidal syndrome in Chinese schizophrenic patients

AIM

Extrapyramidal syndrome (EPS) is most commonly affected by typical antipsychotic drugs that have a high affinity with the D2 receptor. Recently, many research groups have reported on the positive relationship between the genetic variations in the DRD2 gene and the therapeutic response in schizophrenia patients as a result of the role of variations in the receptor in modulating receptor expression. In this study, we evaluate the role DRD2 plays in chlorpromazine-induced EPS in schizophrenic patients.

METHODS

We identified seven SNP(single nucleotide polymorphism) (-141Cins>del, TaqIB, TaqID, Ser311Cys, rs6275, rs6277 and TaqIA) in the DRD2 gene in 146 schizophrenic inpatients (59 with EPS and 87 without EPS according to the Simpson-Angus Scale) treated with chlorpromazine after 8 weeks. The alleles of all loci were determined by PCR (polymerase chain reaction).

RESULTS

Polymorphisms TaqID, Ser311Cys and rs6277 were not polymorphic in the population recruited in the present study. No statistical significance was found in the allele distribution of -141Cins>del, TaqIB, rs6275 and TaqIA or in the estimated haplotypes (constituted by TaqIB, rs6275 and TaqIA) in linkage disequilibrium between the two groups.

CONCLUSION

Our results did not lend strong support to the view that the genetic variation of the DRD2 gene plays a major role in the individually variable adverse effect induced by chlorpromazine, at least in Chinese patients with schizophrenia. Our results confirmed a previous study on the relationship between DRD2 and EPS in Caucasians.

Glutathione S-transferase M1 polymorphism may contribute to schizophrenia in the Korean population

The association between Glutathione S-Transferase M1 gene (GSTM1) polymorphism and schizophrenia was examined. One hundred and eleven in-patients with schizophrenia and 130 healthy controls were enrolled in this study. Genotyping was performed using a polymerase chain reaction-based method. The GSTM1 null genotype was significantly more frequent in the schizophrenia patients than in the controls (P=0.014, odds ratio=1.93, 95% confidence interval=1.115-3.351). On the other hand, the GSTM1 genotype variants were not associated with tardive dyskinesia or total abnormal involuntary movement scale scores. This study suggests that, at least in the Korean population, the GSTM1 polymorphism may confer susceptibility to the development of schizophrenia but not to tardive dyskinesia.

Evidence of a role for the 5-HTTLPR genotype in the modulation of motor response to antidepressant treatment

RATIONALE

Serotonergic mechanisms are thought to play an important role in the regulation of mood, motor activity and sleep patterns. Serotonin reuptake is controlled by the serotonin transporter (5-HTT) and by a common functional insertion/deletion polymorphism in the corresponding gene's promoter region (5-HTTLPR). Homozygosity for the long variant may confer a favourable response to treatment with serotonin reuptake inhibitors (SSRIs), and to sleep deprivation.

OBJECTIVES

The study assessed the role of the 5-HTTLPR genotype in determining motor side effects of antidepressant medication.

METHODS

Motor activity patterns of 62 patients with major depression who were being treated with either SSRIs or tricyclic antidepressants (TCAs) were monitored over a 24-h period using a wrist-actograph. Additionally, motor activity was rated in a semi-structured interview using the motor agitation and retardation scale (MARS).

RESULTS

Night-time motor activity was significantly increased in homozygous carriers of the long 5-HTTLPR allele (LL-genotype) who were being treated with SSRIs in comparison to short allele carriers (LS-genotype and SS-genotype), regardless of the type of antidepressant treatment (P<0.001). It was also significantly increased in comparison to patients with the LL-genotype who were being treated with TCAs (P<0.01). Differences in actographic motor activity were most prominent between 11 p.m. and 4 a.m. Clinical ratings of motor activity also showed a trend toward higher agitation scores in patients with the LL-genotype who received SSRI treatment.

CONCLUSIONS

Homozygosity for the long variant of the 5-HTTLPR may cause a predisposition to increased night-time motor activity in conjunction with SSRI treatment.

CAG nucleotide repeat profiles in persons with schizophrenia or schizoaffective disorders with and without tardive dyskinesia: pilot study

Tardive dyskinesia (TD) is a drug-induced syndrome of involuntary movements often associated with neuroleptic treatment of psychiatric conditions. Huntington's disease (HD) and other neurological conditions are caused by CAG nucleotide repeat expansions in specific genes. We, therefore, explore the hypothesis that TD may be related to CAG repeat expansion by using the repeat expansion detection (RED) method as a measure of CAG content without knowledge of the location of the responsible gene. The number of CAG repeats ([CAG](n)) from persons with schizophrenia or schizoaffective disorders with (n = 10) and without (n = 9) TD are determined. A comparison of [CAG](n) in persons with (56.90 +/- 23.45 repeats) and without (57.00 +/- 19.35 repeats) TD was not statistically different. The total [CAG](n) was determined by combining [CAG](n) for both groups. The median of 45 repeats was used to divide the total into two groups (SG1 and SG2 with smaller and larger [CAG](n) fragments, respectively) and a means analysis of the two subgroups based on [CAG](n) demonstrated that SG1 (n = 10 samples at 45 repeats per sample, mean [CAG](n) = 45.00 +/- 0.00) was significantly smaller than SG2 (n = 9, ranging from 48 to 120 repeats, mean = 70.22 +/- 24.83; P < 0.005). Thus, this lends support to the idea of CAG repeat expansions in the study population. Results are encouraging that a larger population and a more structured subject selection process may yield more meaningful information about the relationship between CAG repeat expansion and TD.

Association between the serotonin 2C receptor gene and tardive dyskinesia in chronic schizophrenia: additive contribution of 5-HT2Cser and DRD3gly alleles to susceptibility

RATIONALE

Tardive dyskinesia (TD) is a longterm adverse effect of dopamine receptor blockers. The dopamine D3 receptor gene (DRD3) ser9gly polymorphism has been previously associated with susceptibility to TD. Serotonin receptor antagonism has been proposed as a common mechanism contributing to the low extra-pyramidal effects profile of atypical antipsychotic drugs.

OBJECTIVES

To examine the association of a functional polymorphism in the 5-HT2C receptor gene (HT2CR) with TD and the joint contribution of HT2CR and DRD3 to susceptibility.

METHODS

Case control association analysis of allele and genotype frequencies among schizophrenia patients with (n=55) and without TD (n=60), matched for antipsychotic drug exposure and other relevant variables, and normal control subjects (n=97). Parametric analyses of the contribution of 5-HT2Cser and DRD3gly alleles to dyskinesia scores.

RESULTS

We found a significant excess of 5-HT2Cser alleles in schizophrenia patients with TD (27.2%) compared to patients without TD (14.6%) and normal controls (14.2%; chi2=6.4, df 2, P=0.03) which was due to the female patients (chi2=8.6, df 2, P=0.01). Among the female TD patients there was an excess of cys-ser and ser-ser genotypes (chi2= 11.9, df 4, P=0.02). Analysis of covariance (ANCOVA), controlling for age at first antipsychotic treatment, revealed a significant effect of 5-HT2C genotype on orofacial dyskinesia (OFD) scores (F=3.47, df 2, P=.03). In a stepwise multiple regression analysis, 5-HT2C and DRD3 genotype (5-HT2Cser and DRD3gly allele carriage) respectively contributed 4.2% and 4.7% to the variance in OFD scores.

CONCLUSIONS

These findings support a small but significant contribution of the HT2CR and DRD3 to susceptibility to TD, which is additive in nature.

Association of dopamine D3-receptor gene variants with neuroleptic induced akathisia in schizophrenic patients: a generalization of Steen's study on DRD3 and tardive dyskinesia

Neuroleptic induced akathisia is a common and distressful extrapyramidal side effect of antipsychotic treatment. A significant proportion of the variability of its development has been left unexplained and has to be attributed to individual susceptibility. Since hereditary factors have been discussed in the etiology of acute akathisia (AA), part of the individual susceptibility might be of genetic origin. Moreover, AA is regarded as a forerunner of tardive dyskinesia, a drug-induced chronic movement disorder, which may be associated with homozygosity for the Ser9Gly variant of the DRD3 gene. Considering expression studies, which demonstrated functional variants of DRD3 polymorphisms, we investigated whether homozygosity for the Ser9Gly variant of the DRD3 gene is associated with AA. Homozygosity for the Ser9Gly variant of the DRD3 gene was connected to an 88% incidence of AA as compared with a considerably lower 46.9% incidence of AA in schizophrenic patients nonhomozygous for the 2-2 allele (exact P = 0.0223). Am. J. Med. Genet. (Neuropsychiatr. Genet.) 96:187-191, 2000.

Abnormal movements in never-medicated Indian patients with schizophrenia

BACKGROUND

Historical records suggest dyskinesia was observed in severely ill institutionalised patients with schizophrenia in the pre-neuroleptic era. More recent work has not found dyskinesia in never-medicated younger and middle aged patients. The present study complements this recent work and avoids the confounders of severity of illness and institutionalism by examining elderly patients in a wide variety of community settings.

METHOD

Movement disorders were examined in 308 elderly individuals in Madras, India, using the Abnormal Involuntary Movements Scale, the Simpson and Angus Parkinsonism Scale and the Barnes Akathisia Scale. Patients' mental state was assessed by the Positive and Negative Syndrome Scale.

RESULTS

Dyskinesia was found in 15% of normal subjects (n = 101, mean age 63 years), 15% of first degree blood relatives of younger schizophrenic patients (n = 103, mean age 63 years), 38% of never medicated patients (n = 21, mean age 65 years) and 41% of medicated patients (n = 83, mean age 57 years). The respective prevalences for Parkinsonism were 6%, 11%, 24% and 36%; and for akathisia 9%, 5%, 21% and 23%. Dyskinesia was associated with negative schizophrenic symptoms.

CONCLUSIONS

Dyskinesia in elderly schizophrenic patients is an integral part of the illness and not associated with antipsychotic medication.

Tourette's syndrome associated with restless legs syndrome and akathisia in a family

A family with coincidence of a restless leg syndrome (RLS) in the mother and a Gilles de la Tourette syndrome (GTS) in the son who also shows increased vulnerability to neuroleptic induced akathisia (NIA) is presented. Since these diseases show parallels from a genetic, pathogenetic and clinical point of view, the familiar coincidence is discussed under these aspects with respect to suggested disturbances of the dopamine and the opiate systems in RLS, GTS, and NIA.