It is known that the frequency of men and women suffering from stress-related neuropsychiatric disorders is all but proportionally distributed. Notably, women are far more susceptible than men to the precipitation of depressive symptomatology. Some studies attribute this sex-specific vulnerability to the pronounced genetic predisposition that women may present towards the development of depressive disorders. Furthermore, clinical evidence support the notion that antidepressant response is also characterized by sex-specific manifestations; women may have a better outcome when treated with selective serotonin re-uptake inhibitors, in comparison to tricyclic antidepressants. Despite the fact that the contribution of the "genome" remains elusive when it comes to major depression, intriguing evidence has recently emerged pointing to sexually dimorphic influences of certain polymorphisms in genes related to the pathophysiology of major depression and antidepressant response, such as the serotonin transporter (5-HTT), serotonin 1A (5HT1A) receptor, monoamine oxidase A (MAO-A) and others. Given that the ultimate goal of pharmacogenetics is to provide "tailor-made" pharmacotherapies based on the genetic makeup of an individual, the factor of "sex" needs to be carefully addressed in disorders that are characterized by sex specific manifestations. The aim of the present article is to highlight the impact of sex in depression and in antidepressant pharmacoresponse by providing intriguing insights from the field of pharmacogenetics.

Many stress-related mental disorders, including depression and post-traumatic stress disorder occur more often in women than in men. While social and cultural factors certainly contribute to these differences, neurobiological sex differences seem to also play an important role. A rapidly burgeoning literature from basic and clinical research documents sex differences in brain anatomy, chemistry and function, as well as in stress and drug responses. For example, some clinical studies have reported that women may have a better outcome when treated with selective serotonin re-uptake inhibitors, in comparison to tricyclic antidepressants. Furthermore, relatively limited basic research has been devoted to developing animal models and consequently describing drug treatments which are sensitive to sex differences. In this MiniReview, we discuss sex differences in behavioural aspects, as well as neurochemical, neurobiological and pharmacological findings that we have collected from several different animal models and tests of depression. These are the forced swim test, the chronic mild stress and the learned helplessness models, the Flinders sensitive line rats, which is a genetic model of depression and the lipopolysaccharide-induced sickness behaviour, a putative inflammatory model of depression. Collectively, our data have shown that in all animal models assayed, serotonergic neurochemical responses were differently affected in males and females, ultimately producing sex-dependent behavioural effects. In addition, Flinders sensitive line rats exhibited a sexually dimorphic response to chronic antidepressant treatment. These sex-differentiated neurochemical and behavioural alterations lend support to a major role of serotonin in the mediation of sexually dimorphic responses.