Repeated use of MDMA ('ecstasy') causes time-dependent immune dysfunction similar to a single dose, but the second dose extends the period of impaired immunocompetence. The drug decreases CD4 T-helper cells, increases natural killer (NK) cells, and reduces lymphocyte responsiveness to stimulation. In poor metabolizers, MDMA accumulation produces greater immunomodulatory effects, including significant differences in NK cell function. Recreational MDMA users show long-term alterations: reduced lymphocytes, T cells, and CD4 cells (though within normal limits), and NK cells reduced to one-third of healthy levels. Over two years, a subgroup showed statistically significant decreases in immune parameters, potentially increasing susceptibility to infection and immune disorders.
MDMA (ecstasy) use produces neurochemical, behavioral, and endocrine changes similar to acute stress, acting as a chemical stressor. In rats, MDMA rapidly suppressed lymphocyte proliferation, decreased circulating lymphocytes, and increased plasma corticosterone. In humans, acute MDMA caused time-dependent immune dysfunction: CD4+ T-cells and lymphocyte responsiveness to stimulation decreased, while natural killer cells increased; total leukocyte count remained unchanged. Cortisol rose similarly to the rat model, suggesting MDMA triggers corticotrophin-releasing factor release from the hypothalamus, activating the HPA axis and sympathetic nervous system. These findings indicate MDMA ingestion may increase risk for immune system-related diseases.