Inf l uence of cross-disorder analyses on the diagnostic criteria of mental illnesses

Meiti WANG， Donghong CUI*

Inf l uence of cross-disorder analyses on the diagnostic criteria of mental illnesses

Meiti WANG， Donghong CUI*

cross-disorder analyses； mental illness； genetics； diagnoses

Mental illnesses are the result of cerebral dysfunctions of unknown etiology which manifest as cognitive，affective， motivational， and behavioral impairments.［1］Despite their origin in the brain， specific diagnostic biomarkers for mental disorders have not yet been identified， so clinicians must rely on clinical presentations to classify the conditions. Present understanding of the pathogenesis of mental illnesses mainly arises from genetic studies that are，paradoxically， largely focused on mental disorders as classified by the traditional symptom-based diagnostic system.

Genetic findings have identified several potential genes related to mental illness， many of which occur in multiple mental illnesses. The unexpected similarity of the genetic variations in persons with different types of mental disorders has increased the popularity of crossdisorder genetic analysis. For example， a cross-disorder genome-wide association study （GWAS）［2］found shared genetic variations on genes in regions of chromosomes 3p21 and 10q24， and single-nucleotide polymorphisms（SNPs） within two L-type voltage-gated calcium channel subunits （CACNA1C and CACNB2） among individuals with schizophrenia， bipolar disorder， autism spectrum disorder， major depressive disorder， and attention deficit-hyperactivity disorder. Another cross-disorder analysis of six different neurodevelopmental disorders（intellectual disabilities， autism spectrum disorder，attention deficit-hyperactivity disorder， schizophrenia，bipolar disorder， and epilepsy） found that among 241 genes involved in cerebral development， 7 genes are directly related to neurodevelopmental disorders and 10 genes are indirectly related to mental disorders.［3］Such studies suggest that the conceptual independence of mental disorders classified in current diagnostic systems may not ref l ect the underlying brain pathology.

How serious is this challenge to the present diagnostic system for mental illnesses？ Some relatively rare conditions have already been reclassified when a specific genetic etiology was discovered. The best example is Rett syndrome which was diagnosed as a pervasive developmental disorder in the fourth edition of the Diagnostic and Statistical Manual of Mental Disorders （DSM-IV）［4］but re-classified as a neurological disorder in the more recent fifth edition of the diagnostic manual （DSM-5）［5］because research found it was caused by a single X-chromosome mutation in the methyl-CpG-binding protein 2 （MECP2）.［6］

We think it premature to take such examples as evidence that the time has come to discard the current symptom-based diagnostic systems. It cannot be assumed that shared genetic variations indicate a similar pathogenesis. For example， the identified shared genetic variations on SNPs within two L-type voltage-gated calcium channel subunits of CACNA1C and CACNB2 for five diagnostically separate mental illnesses［2］may only indicate that one step in the long pathological process for the conditions is shared. There is no evidence that these SNPs within CACNA1C and CACNB2 are key causative genes of the five mental illnesses， and， therefore， no justification for the claim that the conditions belong to one diagnostic group.In fact， the voltage-gated calcium channel coded by these genes is a macromolecular assembly located in the membrane of excitable cells distributed throughout the brain， heart， smooth muscle， and endocrine system that play important roles in multiple vital activities including gene expression， muscle contraction， and hormone release. CACNA1C is related to maintaining heart rhythm，［7］and CACNB2 is related to the production and differentiation of T cells in lymphocytes， which is important in maintaining the integrity of the immune system；［8］their relationship to brain functioning is unclear. Malfunctions of this voltage-gated calcium channel occur in cardiovascular diseases， diabetes，tumors， and cerebrovascular diseases.［9，10］Thus， the identified genetic variations in SNPs within CACNA1C and CACNB2 for the fi ve mental disorders are probably not limited to these conditions， and， moreover， the results for the fi ve mental disorders may be confounded by the co-occurrence of specific physical illnesses.

The other major finding in the field about the seven genes that are directly related to six types of neurodevelopmental disorders［3］is also of limited diagnostic value. Many （and probably most）neuropsychiatric disorders are associated with abnormalities in the neurodevelopmental process that manifest at different times over the lifetime.Finding that several of the disorders that manifest early in life have some genetic determinants of the neurodevelopmental process in common does not prove that they should be included in a single diagnostic group. The genetic fingerprint for disorders will depend on knowing the entire genetic profile for each unique condition. Differential diagnoses will focus on the genetic components that are different from other conditions， not on the components that are shared with other conditions.

The causes of mental illness still largely remain terra incognita. It is clear that currently defined mental disorders with similar clinical presentations may be the outcome of different pathogenetic processes and， conversely， that similar pathogentic processes may present with very different clinical symptoms.New genetic analysis are shedding some light on the issue， but it remains unclear what part of the puzzle we are seeing. Despite the presence of some genetic similarities between schizophrenia， bipolar disorder，major depressive disorder， attention deficit-hyperactivity disorder， and autism spectrum disorder， there are more differences than similarities between these conditions.

Cross-disorder analyses are justifiably making us reconsider the phenomenology-based diagnostic system of mental illnesses that has been used for more than a century. But the results of these genetic analyses need several rounds of refinement and demonstrated clinical benefits （e.g.， improved outcomes when targeting treatments to genetically classified disorders） before we can justify replacing the current diagnostic system with genetic marker-based diagnoses. Much of the work to date has been based on secondary analyses of singledisorder studies. Future studies need to simultaneously include individuals with specific conditions of interest（and specific comorbid conditions） and adjust for physical conditions that could potentially confound the genetic findings.

Funding

The manuscript was supported by the National Natural Science Foundation of China （81271481 and 81171266）， the Shanghai Jiao Tong University Science and Social Science Intersection Program （14JCR205），and the Shanghai key laboratory of psychotic disorders（13dz2260500）.

Conflict of interest statement

The authors report no conflict of interest related to this manuscript.

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Dr. Meiti Wang graduated from Chongqing Medical University in 2013 with a bachelor's degree. She has been a master's student at the Shanghai Municipal Key Laboratory for Severe Mental illness，Shanghai Jiao Tong University School of Medicine since 2013. Her research interests are psychosis induced by metabolic disorders and the study of animal models of mental disorders.

跨病種研究對精神疾病診斷標(biāo)準(zhǔn)的影響

王媺媞，崔東紅

跨障礙分析；精神疾病；遺傳學(xué)；診斷

Cross-disorder studies are identifying shared genetic variations among common mental illnesses- including schizophrenia， bipolar disorder， and major depression - which are classified as independent disorders in the current diagnostic system. These cross-disorder studies are challenging the traditional system of diagnosing mental disorders based on clinical symptoms， but it remains to be seen whether or not they will lead to an improved method of classifying psychiatric disorders that can， in turn， lead to better outcomes for individuals suffering from these conditions.

［Shanghai Arch Psychiatry. 2016； 28（1）： 45-47.

http：//dx.doi.org/10.11919/j.issn.1002-0829.216032］

Shanghai Mental Health Center， Shanghai Jiao Tong University School of Medicine， Shanghai， China

*correspondence： Dr. Donghong Cui， Shanghai Key Laboratory of Psychotic Disorders， Shanghai Mental Health Center， 3210 Humin Road， Shanghai 201108，China. E-mail： manyucc@126.com

A full-text Chinese translation of this article will be available at http：//dx.doi.org/10.11919/j.issn.1002-0829.216032 on May 25， 2016.

概述：許多跨病種研究逐漸發(fā)現(xiàn)在不同的常見精神疾病之間——包括精神分裂癥、雙相情感障礙、和抑郁癥，存在共同的遺傳變異，而目前診斷系統(tǒng)中已經(jīng)將這些疾病分為獨立的精神障礙。這些跨病種研究對基于臨床癥狀的精神障礙診斷傳統(tǒng)系統(tǒng)是一種挑戰(zhàn)，但是這否能夠成為精神疾病分類的一種改進方法從而改善這些承受痛苦的患者的預(yù)后仍有待觀察。

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