Sex differences in dopamine receptors and their relevance to ADHD

SL Andersen, MH Teicher�- Neuroscience & Biobehavioral Reviews, 2000 - Elsevier
Neuroscience & Biobehavioral Reviews, 2000Elsevier
Gender differences in ADHD may be attributable to gender differences in dopamine receptor
density. Striatal male D2 receptor density increases 144�26% between 25 and 40days (the
onset of puberty), while female D2 receptor density increases only 31�7%. Male receptor
density is then sharply eliminated by 55% by adulthood. Periadolescent females show little
overproduction and pruning of striatal D1 and D2 receptors, though adult density is similar to
males. The rise of male, but not female, striatal dopamine receptors parallels the early�…
Gender differences in ADHD may be attributable to gender differences in dopamine receptor density. Striatal male D2 receptor density increases 144�26% between 25 and 40days (the onset of puberty), while female D2 receptor density increases only 31�7%. Male receptor density is then sharply eliminated by 55% by adulthood. Periadolescent females show little overproduction and pruning of striatal D1 and D2 receptors, though adult density is similar to males. The rise of male, but not female, striatal dopamine receptors parallels the early developmental appearance of motor symptoms of ADHD and may explain why prevalence rates are 2–4 fold higher in men than women. Pruning of striatal dopamine receptors coincides with the estimated 50–70% remission rate by adulthood. Transient lateralized D2 dopamine receptors (left>right) in male striatum may increase vulnerability to ADHD. More persistent attentional problems may be associated with the overproduction and delayed pruning of dopamine receptors in prefrontal cortex. Differences in D1 receptor density in nucleus accumbens may have implications for increased substance abuse in males.
Elsevier