The recent escalation in suicide rates amongst veterans is of urgent concern, likely reflecting high rates of both major depression (MDD) and treatment-resistant depression (TRD). Higher rates of MDD and suicide are linked to living at altitude as well as with chronic hypoxic disorders (COPD, asthma, smoking), implying that chronic hypoxia intensifies MDD status, increases the prevalence of TRD and elevates suicide risk. Using a novel translational animal model for hypoxia-related depression, we plan to test the efficacy of current standard of care (SOC) antidepressants (AD) in chronic hypoxia, and also to explore alternative therapeutic options for MDD in chronic hypoxia, with a special focus on women. This proposal thus meets 3 out of 8 priority research areas of interest to the BLR&D program: Suicide Prevention, Women's Health and Risky Behaviors (Smoking). People residing at altitude or those with hypoxic disorders (COPD, asthma, smoking) are exposed to chronic hypoxia. In animal models, hypobaric hypoxia (the low oxygen levels experienced at altitude) lowers brain serotonin levels, and low brain serotonin can reduce the efficacy of selective serotonin reuptake inhibitors (SSRIs), the most commonly prescribed ADs and the ADs of choice for the veteran population. Using a novel animal model, we find that after a week of housing at altitude (4500, 10,000 or 20,000ft), female rats show significantly more depression-like behavior (DLB) in the FST vs. at sea level, with motor behavior in the open field test (OFT) unchanged. Future studies will analyze DLB in rats with the FST and the sucrose preference test and further will evaluate locomotor effects of treatments with the OFT. In our model, hypobaric hypoxia also lowers brain striatal serotonin and forebrain total creatine (a brain bioenergetic marker) in rats, and reduces efficacy of the SSRI fluoxetine (Prozac(r)) in the FST. A similar drop in forebrain creatine levels is also seen in people residing at altitude (4500 ft) vs. at sea level. Our overarching hypothesis therefore is that chronic hypoxia may cause neurochemical deficits in people, leading to increased rates of MDD and TRD, and higher suicide risk, implying the need for therapeutic options specific to MDD in chronic hypoxia. We thus plan to initially test for efficacy of SOC ADs from serotoninergic and noradrenergic classes in hypobaric hypoxia, towards optimizing SOC AD use in veterans with chronic hypoxia. We then plan to test dietary augmentation with 5-hydroxytryptophan (5HTP, to enhance brain serotonin levels), creatine (to enhance brain bioenergetics), and a combination of 5HTP+creatine, each SSRI treatment, as options to reduce MDD and improve SSRI efficacy in TRD in veterans in chronic hypoxia. Data from these studies are expected to serve to significantly reduce suicide risk in the veteran population. A chronic disease, depression is particularly prevalent amongst veterans: with elevated MDD rates in combat-returned veterans, high depression comorbidity, and significantly higher suicide rates than the general public. Female veterans are even more severely impacted by depression: 27% of women at the VA are treated for MDD, and women veterans report significantly higher depression comorbidity and MDD-based disability status than male veterans. Suicidal ideation amongst veterans is highly linked to female gender and MDD diagnosis. Suicide rates in veterans aged 18-29 have increased from 45 to 57 per 100,000 between 2005 and 2007, significantly higher than the general US population at 12.4 per 100,000. Also, 20% of those treated at the VHA have COPD and 40% of young veterans are cigarette smokers, and these and other veterans dealing with chronic hypoxic conditions are at increased risk for MDD, TRD and suicide. Of 23 million US veterans, over 2 million in the VA system are female veterans, almost 2 million veterans live in the high altitude Rocky Mountain states, and a significant portion suffer from chronic hypoxic conditions such as COPD, asthma and smoking. Therefore, strategies to improve AD efficacy in both hypoxia-related depression and other forms of TRD are likely to have a significant impact on mental health status and longevity in the veteran community.
Veterans exhibit a higher risk for major depression (MDD), treatment-resistant depression (TRD) and suicide. Female veterans face an even greater depression burden and elevated MDD-based disability status. MDD and suicide rates are also higher in those living at altitude and with chronic hypoxic disorders such as COPD, asthma and smoking. In animal models, hypoxia reduces brain serotonin, and SSRIs lose efficacy with low brain serotonin, implying that high MDD and TRD rates are likely in chronic hypoxia, thereby increasing suicide risk. Using a translational animal model, we will study MDD in chronic hypoxia by examining (1) the efficacy of SSRIs and other antidepressants to identify those most optimal for hypoxia-related MDD, and (2) the potential of dietary 5HTP, creatine and 5HTP+creatine ( SSRI) to restore hypoxia-induced brain deficits, reduce depression and improve SSRI efficacy. Focused on MDD in women, this proposal meets 3 of the 8 priority research areas of interest to the BLR&D: Suicide Prevention, Women's Health and Risky Behavior (Smoking).
