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Peixiong Yuan

Experimental Therapeutics and Pathophysiology Branch, Intramural Research Program, National Institute of Mental Health, National Institutes of Health, Bethesda, MD, USA.

5 papers in the library · 34 citations · publishing 2025-2026

Papers

Associations between hypothalamic-pituitary-adrenal (HPA) axis hormone levels, major depression features and antidepressant effects of ketamine.

Journal of affective disorders March 15, 2025 Polymnia Georgiou, Cristan A Farmer, Gustavo C Medeiros et al. 24 citations

Baseline levels of stress-related hormones (CRF, ACTH, and cortisol) did not significantly influence how well ketamine worked as an antidepressant in people with treatment-resistant depression. However, higher levels of ACTH and CRF were associated with longer overall duration of depressive episodes, suggesting these hormones might serve as biomarkers for chronic depression. Additionally, people who developed depression at a younger age tended to have more severe depressive symptoms, indicating that earlier onset may lead to greater cumulative stress on the brain and body. The study involved 42 participants in a randomized, placebo-controlled, crossover trial.

Assessment of complement cascade components in patients with major depressive disorder.

Brain, behavior, and immunity July 1, 2025 Brandi Quintanilla, Dede Greenstein, Ashutosh Tripathi et al. 7 citations

Ketamine, a rapid-acting antidepressant, may also regulate immune function. The complement system, part of the innate immune response involved in synaptic plasticity, has been linked to depression. This analysis of data from 39 people with major depressive disorder and 25 healthy volunteers, originally part of a randomized, double-blind trial comparing intravenous ketamine (0.5 mg/kg) to placebo, measured plasma levels of complement proteins C3a and C4a at baseline, 230 minutes, Day 1, and Day 3. A significant interaction between diagnosis and sex was found for C3a but not C4a levels. Ketamine's effects on C3a and C4a did not change over time. The findings suggest that targeting the complement pathway could lead to advances in treating major depressive disorder.

Response of iPSC-derived neurons from individuals with treatment-resistant depression to (2 R,6 R)-hydroxynorketamine and reelin: an exploratory study.

Translational psychiatry November 18, 2025 Jenessa N Johnston, Peixiong Yuan, Bashkim Kadriu et al. 2 citations

In neurons derived from induced pluripotent stem cells of five women with treatment-resistant depression (average age 40.2 years), both the glycoprotein reelin and the ketamine metabolite (2R,6R)-hydroxynorketamine increased expression of several synaptic proteins (GluA1, PSD-95, Dab1, Synapsin I, and p-ERK) within one hour, with effects declining by 24 hours. Gene expression changes were similar for both compounds, though only reelin upregulated mTORC1 signaling. The findings suggest that iPSC-derived neurons may serve as a useful in vitro model for studying treatment-resistant depression and testing potential therapeutics.

Blunted arginine vasopressin secretion in individuals experiencing a major depressive episode with comorbid post-traumatic stress disorder: Results from an exploratory study using copeptin as a surrogate marker.

Journal of neuroendocrinology January 1, 2026 Hiroe Hu, Yoojin Lee, Alaina N Tillman et al. 1 citation

People with both major depression and post-traumatic stress disorder (PTSD) have lower baseline levels of copeptin, a stable marker of vasopressin secretion, and a blunted reduction in copeptin after a single low-dose ketamine infusion compared to those with depression alone. Copeptin levels were unrelated to depression diagnosis or symptom severity of depression, anxiety, PTSD, anhedonia, suicidal ideation, or childhood trauma, but higher copeptin was linked to verbal aggression, an association weakened by PTSD. These findings point to a possible biological subtype of reduced vasopressin activity in co-occurring depression and PTSD, suggesting copeptin may serve as a peripheral biomarker for central vasopressin-driven circuits in neuropsychiatric disorders.

Time-Dependent Effects of Rapid-Acting Antidepressants in iPSC-Derived Neurons from Treatment-Resistant Depression and Healthy Volunteers.

Research square February 12, 2026 Jenessa Johnston, Greg Jones, Shiyong Peng et al.

Rapid-acting antidepressants such as ketamine and psychedelics share common downstream effects on gene expression in human cortical neurons, despite targeting different initial receptors. Using stem cells from people with treatment-resistant depression and healthy volunteers, neurons were treated with several compounds. After 6 and 24 hours, gene activity was highly correlated across all drugs, converging on pathways related to inflammation, mTORC1 signaling, and cell growth. One compound, HNK, increased gene activity in excitatory neurons and decreased it in inhibitory neurons. These gene changes matched protein changes in spinal fluid from people given ketamine, supporting the model's relevance for studying antidepressant mechanisms.