Endophenotypes and serotonergic polymorphisms associated with treatment response in obsessive-compulsive disorder

OBJECTIVES: Approximately 40-60% of obsessive-compulsive disorder patients are nonresponsive to serotonin reuptake inhibitors. Genetic markers associated with treatment response remain largely unknown. We aimed (1) to investigate a possible association of serotonergic polymorphisms in obsessive-compulsive disorder patients and therapeutic response to selective serotonin reuptake inhibitors and (2) to examine the relationship between these polymorphisms and endocrine response to intravenous citalopram challenge in responders and non-responders to serotonin reuptake inhibitors and in healthy volunteers. METHODS: Patients with obsessive-compulsive disorder were classified as either responders or non-responders after long-term treatment with serotonin reuptake inhibitors, and both groups were compared with a control group of healthy volunteers. The investigated genetic markers were the G861C polymorphism of the serotonin receptor 1Dβ gene and the T102C and C516T polymorphisms of the serotonin receptor subtype 2A gene. RESULTS: The T allele of the serotonin receptor subtype 2A T102C polymorphism was more frequent among obsessive-compulsive disorder patients (responders and non-responders) than in the controls (p<0.01). The CC genotype of the serotonin receptor subtype 2A C516T polymorphism was more frequent among the non-responders than in the responders (p<0.01). The CC genotype of the serotonin receptor subtype 1Dβ G681C polymorphism was associated with higher cortisol and prolactin responses to citalopram (p<0.01 and p<0.001, respectively) and with a higher platelet-rich plasma serotonin concentration among the controls (p<0.05). However, this pattern was not observed in the non-responders with the same CC genotype after chronic treatment with serotonin reuptake inhibitors. This CC homozygosity was not observed in the responders.

Association study between genetic monoaminergic polymorphisms and OCD response to clomipramine treatment / Estudo de associação entre polimorfismos genéticos monoaminérgicos e resposta à clomipramina no tratamento do TOC

In the present paper, we investigated the 5HTTLPR and STin2 polymorphisms in the promoter region of the serotonin transporter gene (SLC6A4), the G861C polymorphism (rs6296) of the serotonin receptor 1D beta (HTR1B), the T102C (rs6113) and C516T (rs6305) polymorphisms of the serotonin receptor gene subtype 2A (HTR2A), the DAT UTR, DAT intron 8 and DAT intron 14 of the dopamine transporter gene (SLC6A3), the Val-158-Met (rs4680) polymorphism of the COMT and the silent mutation G1287A (rs5569) in the norepinephrine transporter gene (SLC6A2). We genotyped 41 obsessive-compulsive disorder (OCD) outpatients, classified as good-responders (n=27) and poor-responders (n=14) to treatment with clomipramine according to the Yale Brown Obsessive-Compulsive Scale (YBOCS). Patients who achieved a reduction in symptoms of 40 percent or more in YBOCS after 14 weeks of treatment were considered good-responders. Genotypes and alleles distribution of the investigated polymorphisms were compared between both groups. We did not find association between the studied polymorphisms and clomipramine response in our sample.

No presente estudo, investigaram-se os polimorfismos 5HTTLPR e STin2 da região promotora do gene transportador de serotonina (SLC6A4), o G861C (rs6296) do receptor de serotonina 1D beta (HTR1B), os polimorfismos T102C (rs6113) e C516T (rs6305) do gene do receptor da serotonina subtipo 2A (HTR2A), os polimorfismos UTR, intron 8 e intron 14 do gene transportador de dopamina (SLC6A3), o Val-158-Met (rs4680) da COMT e a mutação G1287A (rs5569) do gene do transportador de norepinefrina (SLC6A2). Foram genotipados 41 pacientes com transtorno obsessivo-compulsivo (TOC), classificados como bons-respondedores (n=27) e maus-respondedores (n=14) ao tratamento com clomipramina, por meio do uso da Escala de Sintomas Obsessivos-Compulsivos Yale Brown (YBOCS). Foram considerados bons-respondedores os pacientes que tiveram redução nos sintomas em 40 por cento ou mais na YBOCS, após 14 semanas de tratamento. A distribuição dos genótipos e alelos estudados foi comparada entre os dois grupos. Não foi encontrada associação entre estes polimorfismos investigados e a resposta à clomipramina na amostra estudada.

Actualización en la patofisiología de la esquizofrenia desde la perspectiva de la neurociencia de sistemas / Update on the pathophysiology of schizophrenia from the systems neuroscience point of view

La patofisiología de la esquizofrenia (EQZ) sólo podrá entenderse en una aproximación integrativa, basada en la neurociencia de sistemas, para tratar de explicar cómo múltiples genes y neurotransmisores pueden actuar de manera sinérgica para producir el trastorno. En este trabajo se analizarán por separado los diversos endofenotipos de esta enfermedad para tratar de explicar, sobre la base de aproximaciones sistémicas, cómo ocurren los cambios en las interneuronas GABAérgicas en la EQZ, comenzando con la hipofunción GABAérgica y sus consecuencias sobre las neuronas piramidales corticales y la disfunción dopaminérgica a punto de origen hipocampal, lo que permite conciliar eventos neurobiológicos con sus consecuencias conductuales (consilience). Los circuitos involucrados por Lisman, Grace, Coyle, Green y otros autores en esta revisión integran las neurotransmisiones glutamatérgica, GABAérgica, dopaminérgica y colinérgica en un marco sistémico en que también se involucran factores de riesgo genético, para intentar demostrar sus acciones sinérgicas dentro del circuito y generar una aproximación desde la neurociencia de sistemas. Se intentará desarrollar estrategias de distinto orden para comprender la EQZ como enfermedad que produce sus consecuencias devastadoras a través de la acción sinérgica de genes y diversos neurotransmisores integrados en circuitos de procesamiento que operan en complejas dinámicas de tipo no-lineal.

Understanding the pathophysiology of schizophrenia (SZ) entails adopting a holistic approach based on systems neuroscience that allows to explain how multiple genes and neurotransmitters can act synergistically to trigger the disorder. In this article, the different endophenotypes of schizophrenia are analysed separaately, with the aim of explaining, by means of systemic approaches, how changes take place in GABAergic interneurons in SZ, starting from the GABAergic hypofunction and ists effects on cortical pyramidal neurons, as well as on the dopaminergic dysfunction at he pont of origin of the hippocampus, which enables to reconcile neurobiological events with their behavioural consequences ("consilience"). The circuits proposed by Lisman, Grace, Coyle, Green and other authors, that make up glutamatergic, GABAerci, dopaminergic and cholinergic neurotransmissions embedded in a systemic framework in whic genetic risk factors are also involved, are included in this review to demonstrate their synergistic actions within the circuit, as well as to develop an approach based on systems neuroscience. The present article will also provide different types of strategies intended to understand SZ as a disease that causes its devastating effects through the synergistic action of genes and the different neurotransmitters organized in processing circuits that operte in complex non-linear dynamics.

Candidate gene polymorphisms among North Indians and their association with schizophrenia in a case-control study.

Knowledge of candidate gene polymorphisms in a population is useful for a variety of gene-disease association studies, particularly for some complex traits. A number of candidate genes, a majority of them from the monoaminergic pathway in the brain, have been very popular in association studies with schizophrenia, a neuropsychiatric disorder. In this study diallelic/multiallelic polymorphisms in some dopaminergic, serotonergic and membrane-phospholipid-related genes have been evaluated in a control population recruited from North India. Association, if any, of these allelic variants with schizophrenia has been tested using a case-control approach. The case data have been taken from our published family-based association studies in schizophrenia. Of the eight genes tested in this study, association with schizophrenia was observed for only two gene polymorphisms, one in the promoter region of the serotonin 2A receptor gene and the other in the tryptophan hydroxylase gene. One new allele for the dopamine transporter gene (with eight repeats, 570-bp size), not reported in any population so far, has been identified in one individual in our sample. The data generated in this study, besides providing a normative background for various disease association studies, are a significant contribution to the population-specific genome database, a currently growing requirement.

Molecular genetics of schizophrenia: past, present and future.

Schizophrenia is a severe neuropsychiatric disorder with a polygenic mode of inheritance which is also governed by non-genetic factors. Candidate genes identified on the basis of biochemical and pharmacological evidence are being tested for linkage and association studies. Neurotransmitters, especially dopamine and serotonin have been widely implicated in its etiology. Genome scan of all human chromosomes with closely spaced polymorphic markers is being used for linkage studies. The completion and availability of the first draft of Human Genome Sequence has provided a treasure-trove that can be utilized to gain insight into the so far inaccessible regions of the human genome. Significant technological advances for identification of single nucleo-tide polymorphisms (SNPs) and use of microarrays have further strengthened research methodologies for genetic analysis of complex traits. In this review, we summarize the evolution of schizophrenia genetics from the past to the present, current trends and future direction of research.