Psychiatric genetics
-
Psychiatric genetics · Aug 2020
ReviewThe role of the gut microbiota in the pathophysiology of mental and neurological disorders.
In recent decades, the concept of the gut microbiota as a potential novel therapeutic strategy for mental health has emerged. The tiny microbes inhabiting our gut communicate through a bidirectional communication signaling with the brain that influences gut physiology, brain function and behavior. ⋯ This review will highlight recent findings in both human and animal studies indicating how changes in the gut microbiota can impact the pathophysiology of such diseases. The current work will also provide an understanding of the efficacy of microbiota-targeted therapies on psychiatric disorders.
-
Psychiatric genetics · Feb 2019
ReviewCross-species models of attention-deficit/hyperactivity disorder and autism spectrum disorder: lessons from CNTNAP2, ADGRL3, and PARK2.
Animal and cellular models are essential tools for all areas of biological research including neuroscience. Model systems can also be used to investigate the pathophysiology of psychiatric disorders such as attention-deficit/hyperactivity disorder (ADHD) and autism spectrum disorder (ASD). ⋯ By bringing together behavioral and neurobiological data, we demonstrate how a cross-species approach can provide integrated insights into gene function and the pathogenesis of ADHD and ASD. The knowledge gained from transgenic models will be essential to discover and validate new treatment targets for these disorders.
-
Psychiatric genetics · Mar 2002
ReviewThe Fawn-Hooded (FH/Wjd) rat: a genetic animal model of comorbid depression and alcoholism.
The Fawn-Hooded (FH/Wjd) rat is an inbred strain of rat that has been reported to exhibit both high immobility in the forced swim test and high voluntary ethanol intake, measures that have been periodically linked with depression and alcoholism in humans. The present paper will first present a survey of the literature and previously unpublished findings that bear on the question of whether FH/Wjd rats should be considered genetic animal models of depression and alcoholism. Subsequently, behavioral studies of the FH/Wjd rats, the non-drinking ACI/N strain, and their F1 and F2 intercrosses will be described. ⋯ In addition, there were no significant litter effects, indicating that maternal effects did not appear to occur. There were also no significant differences among rats with different coat colors, suggesting that the Fawn-Hooded phenotype can be separated from the measures of alcohol intake and immobility. We conclude that the FH/Wjd rat is a genetic animal model of depression and alcoholism, but that the two measures reflective of these states are under separate genetic controls.