5-HTP and Creatine for Depression R33 Phase

Major depressive disorder (MDD) has a lifetime prevalence of over 16% and is associated with reduced work productivity, disability, increased mortality, and increased rates of suicide attempts and completed suicides. Unfortunately, ~34% fail to respond to standard ADs (ADs). Environmental and patient-level factors that increase the risk of MDD could pinpoint novel mechanisms underlying the disorder. One such factor may be relative hypoxia. Persons with hypoxic medical conditions, such as asthma and chronic obstructive pulmonary disease, are at higher risk of depression and suicide compared to those with other chronic medical conditions. Smoking also promotes hypoxia and is linked to increased risks of suicide and depression. Of special relevance to this study, living at high altitude produces relative hypoxia even after months, and is linked to increased risks of suicide and depression. Hypoxia could contribute to MDD in at least two ways. First, brain bioenergetics are altered in both hypoxia and MDD. Hypoxia reduces several neurochemical markers of brain activity, including phosphocreatine (PCr) and n-acetylaspartate (NAA), and alters mitochondrial dynamics in the hippocampus. Proton magnetic resonance spectroscopy (1H-MRS) shows that high-altitude residents have altered whole brain pH and reduced inorganic phosphate to total phosphate (tP) ratios compared to persons dwelling at sea-level. In depressed patients, phosphorus MRS (31P-MRS) shows reduced nucleotide triphosphate (NTP) concentrations and decreased PCr concentrations; AD response is associated with increases in PCr and NTP. Hypoxia could also promote MDD by altering serotonin (5-HT) production. Chronic hypoxia reduces 5-HT in the forebrain and brainstem in rodents. The conversion of tryptophan to 5-hydroxytryptophan (5-HTP) by tryptophan hydroxylase is oxygen-dependent and slowed by hypoxia. Animal studies have shown that selective serotonin reuptake inhibitors (SSRIs) are not as effective at altitude, possibly because of inadequate 5-HT production. Reductions in 5-HT synthesis and inefficiencies in bioenergetics could both contribute to altered brain functional connectivity. MDD may disrupt cortical emotion regulation, and resting state functional connectivity (fcMRI) studies suggest that depression involves reduced connectivity between frontal cortical regions and the amygdala, while AD response correlates with normalization of those connections. Alterations in connectivity associated with AD response are correlated with changes in brain metabolites, suggesting a link to brain bioenergetics.

This suggests two natural supplements as interventions for depression. Oral creatine monohydrate (Cr) could improve bioenergetics in MDD, as Cr alters brain tCr, PCr, and NTP levels. Moreover, Cr produces improvements in mood correlated with normalization of PCr levels and structural connectivity. Alterations in 5-HT synthesis due to hypoxia could be rectified by 5-HTP, as its conversion to 5-HT is not oxygen-dependent. 5-HTP elevates brain 5-HT levels and has AD efficacy in clinical trials. The proposed study is a two-phase, three-armed trial to evaluate whether SSRI/SNRI augmentation with the supplements Cr, 5-HTP, or their combination (5-HTP+Cr) can enhance AD response in treatment-resistant MDD. In the R61 phase, the study will assess the ability of the interventions to alter biological signatures associated with depression, as measured by 31P-MRS, fcMRI, and changes in whole blood 5-HT. In the R33 phase, the study will attempt to replicate the above findings with dose variation and evaluate their correlation with clinical outcomes. The study will have the following aims:

Aim 1. Replicate the clinically meaningful changes in biological signatures (PCr:tP ratios as measured by 31P-MRS, sgACC connectivity as measured by fcMRI, and whole blood serotonin) demonstrated in the R61 phase, following the decision rule noted above.

Aim 2. Demonstrate that the changes in each of the above markers that is carried over from the R61 phase are correlated with changes in depression as measured by the 17-item Hamilton Depression Rating Scale, which would be studied in a subsequent efficacy trial.

Study results will help elucidate the potential efficacy of a novel combination of nutritional supplements in persons with MDD, given strong epidemiologic and physiologic evidence suggesting that relative hypoxia can contribute to depression through alterations in brain bioenergetics and 5-HT synthesis. Target engagement will be indicated by improvements in functional connectivity and frontal cortical energy metabolism.