Why Do Drug Use Disorders Often Co-Occur With Other Mental Illnesses?

The high prevalence of co-morbidity between drug use disorders and other mental illnesses does not mean that one caused the other, even if it appeared first. In fact, establishing causality or directionality is difficult for several reasons. Some symptoms of a mental disorder may not be recognized until the illness has substantially progressed, and imperfect recollections of when drug use/abuse started can also present timing issues. Still, three scenarios deserve consideration:
1. Drugs of abuse can cause abusers to experience one or more symptoms of another mental illness. The increased risk of psychosis in some marijuana abusers has been offered as evidence for this possibility.
2. Mental illnesses can lead to drug abuse. Individuals with overt, mild, or even subclinical mental disorders may abuse drugs as a form of self-medication. For example, the use of tobacco products by patients with schizophrenia is believed to lessen the symptoms of the disease and improve cognition (“Smoking and Schizophrenia: Self-Medication or Shared Brain Circuitry?”).
3. Both drug use disorders and other mental illnesses are caused by overlapping factors such as underlying brain deficits, genetic vulnerabilities, and/or early exposure to stress or trauma.
All three scenarios probably contribute, in varying degrees, to how and whether specific comorbidities manifest themselves.
Overlapping Conditions– Shared Vulnerability
High Prevalence of Drug Abuse and Dependence Among Individuals With Mood and Anxiety DisordersHigh Prevalence of Mental Disorders Among Patients With Drug Use Disorders

Higher Prevalence Smoking Among Patients With Mental Disorders

Because mood disorders increase vulnerability to drug abuse and addiction, the diagnosis and treatment of the mood disorder can reduce the risk of subsequent drug use. Because the inverse may also be true, the diagnosis and treatment of drug use disorders may reduce the risk of developing other mental illnesses and, if they do occur, lessen their severity or make them more amenable to effective treatment. Finally, because more than 40 percent of the cigarettes smoked in this country are smoked by individuals with a psychiatric disorder, such as major depressive disorder; alcoholism; post-traumatic stress disorder (PTSD); schizophrenia; or bipolar disorder, smoking by patients with mental illness contributes greatly to their increased morbidity and mortality.
Data in top two graphs reprinted from the National Epidemiologic Survey on Alcohol and Related Conditions (Conway et al., 2006).
Data in bottom graph from the 1989 U.S. National Health Interview Survey (Lasser et al., 2000).
Common Factors
Overlapping Genetic Vulnerabilities. A particularly active area of comorbidity research involves the search for genes that might predispose individuals to develop both addiction and other mental illnesses, or to have a greater risk of a second disorder occurring after the first appears. It is estimated that 40-60 percent of an individual’s vulnerability to addiction is attributable to genetics; most of this vulnerability arises from complex interactions among multiple genes and from genetic interactions with environmental influences. In some instances, a gene product may act directly, as when a protein influences how a person responds to a drug (e.g., whether the drug experience is pleasurable or not) or how long a drug remains in the body. But genes can also act indirectly by altering how an individual responds to stress or by increasing the likelihood of risk-taking and novelty-seeking behaviors, which could influence the development of both drug use disorders and other mental illnesses. Several regions of the human genome have been linked to increased risk of both, including associations with greater vulnerability to adolescent drug dependence and conduct disorders. The rate of smoking in patients with schizophrenia has ranged as high as 90 percent.
Involvement of Similar Brain Regions.
Some areas of the brain are affected by both drug use disorders and other mental illnesses. For example, the circuits in the brain that use the neurotransmitter dopamine–a chemical that carries messages from one neuron to another– are typically affected by addictive substances and may also be involved in depression, schizophrenia, and other psychiatric disorders.
Indeed, some antidepressants and essentially all antipsychotic medications target the regulation of dopamine in this system directly, whereas others may have indirect effects. Importantly, dopamine pathways have also been implicated in the way in which stress can increase vulnerability to drug addiction. Stress is also a known risk factor for a range of mental disorders and therefore provides one likely common neurobiological link between the disease processes of addiction and those of other mental disorders.
The overlap of brain areas involved in both drug use disorders and other mental illnesses suggests that brain changes stemming from one may affect the other. For example, drug abuse that precedes the first symptoms of a mental illness may produce changes in brain structure and function that kindle an underlying propensity to develop that mental illness. If the mental disorder develops first, associated changes in brain activity may increase the vulnerability to abusing substances by enhancing their positive effects, reducing awareness of their negative effects, or alleviating the unpleasant effects associated with the mental disorder or the medication used to treat it.
Smoking and Schizophrenia: Self- Medication or Shared Brain Circuitry?
Patients with schizophrenia have higher rates of alcohol, tobacco, and other drug abuse than the general population. Based on nationally representative survey data, 41 percent of respondents with past-month mental illnesses are current smokers, which is about double the rate of those with no mental illness. In clinical samples, the rate of smoking in patients with schizophrenia has ranged as high as 90 percent.
Various self-medication hypotheses have been proposed to explain the strong association between schizophrenia and smoking, although none have yet been confirmed. Most of these relate to the nicotine contained in tobacco products: Nicotine may help compensate for some of the cognitive impairments produced by the disorder and may counteract psychotic symptoms or alleviate unpleasant side effects of antipsychotic medications. Nicotine or smoking behavior may also help people with schizophrenia deal with the anxiety and social stigma of their disease.
Research on how both nicotine and schizophrenia affect the brain has generated other possible explanations for the high rate of smoking among people with schizophrenia: The presence of abnormalities in particular circuits of the brain may predispose individuals to schizophrenia; increase the rewarding effects of drugs like nicotine; or reduce an individual’s ability to quit smoking. The involvement of common mechanisms is consistent with the observation that both nicotine and the medication clozapine (which also acts at nicotine receptors) can improve attention and working memory in an animal model of schizophrenia. Clozapine is effective in treating individuals with schizophrenia. It also reduces their smoking levels. Understanding how and why patients with schizophrenia use nicotine is likely to help us develop new treatments for both schizophrenia and nicotine dependence.
The Influence of Developmental Stage
Adolescence–A Vulnerable Time. Although drug abuse and addiction can happen at any time during a person’s life, drug use typically starts in adolescence, a period when the first signs of mental illness commonly appear. It is therefore not surprising that co-morbid disorders can already be seen among youth. Significant changes in the brain occur during adolescence, which may enhance vulnerability to drug use and the development of addiction and other mental disorders. Drugs of abuse affect brain circuits involved in reward, decision making, learning and memory, and behavioral control, all of which are still maturing into early adulthood. Thus, understanding the long-term impact of early drug exposure is a critical area of co-morbidity research.
The brain continues to develop into adulthood and undergoes dramatic changes during adolescence. One of the brain areas still maturing during adolescence is the prefrontal cortex– the part of the brain that enables us to assess situations, make sound decisions, and keep our emotions and desires under control. The fact that this critical part of an adolescent’s brain is still a work in progress puts them at increased risk for poor decisions (such as trying drugs or continuing abuse). Thus, introducing drugs while the brain is still developing may have profound and long-lasting consequences.
The high rate of co-morbidity between drug abuse and addiction and other mental disorders argues for a comprehensive approach to intervention that identifies, evaluates, and treats each disorder concurrently.
Early Occurrence Increases Later Risk. Strong evidence has emerged showing early drug use to be a risk factor for later substance abuse problems; additional findings suggest that it may also be a risk factor for the later occurrence of other mental illnesses. However, this link is not necessarily a simple one and may hinge upon genetic vulnerability, psychosocial experiences, and/or general environmental influences. A recent study highlights this complexity, with the finding that frequent marijuana use during adolescence can increase the risk of psychosis in adulthood, but only in individuals who carry a particular gene variant (see sidebar, “The Influence of Adolescent Marijuana Use on Adult Psychosis Is Affected by Genetic Variables”).
The Influence of Adolescent Marijuana Use on Adult Psychosis Is Affected by Genetic Variables

Percentage of Individuals Meeting Diagnostic Criteria for Schizophreniform Disorder at Age 26

Source: Caspi A, Moffitt TE, Cannon M, et al., 2005.
The above figure shows that variations in a gene can affect the likelihood of developing psychosis in adulthood following exposure to cannabis. The Catechol-O-Methyltransferase gene regulates an enzyme that breaks down dopamine, a brain chemical involved in schizophrenia. It comes in two forms: Met and Val. Individuals with one or two copies of the Val variant have a higher risk of developing schizophrenic-type disorders if they used cannabis during adolescence (dark bars). Those with only the Met variant were unaffected by cannabis use. These findings hint at the complexity of factors that contribute to co-morbid conditions; however, more research is needed.
Source: NIDA Jan.2009

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