Expression of pregnenolone-synthesizing enzymes CYP11A1 and CYP1B1 in the human, rat, and mouse brain

Abstract

The central nervous system (CNS) is capable of synthesizing steroids for modulating essential functions such as neurotransmission, neuroplasticity, and neuroinflammation. These locally synthesized steroids, called neurosteroids, are produced through the conversion of cholesterol into the major steroid precursor pregnenolone, followed by downstream metabolism to form various steroids such as progesterone and allopregnanolone. Given that changes in neurosteroids are implicated in many neurological and psychiatric disorders, understanding the neurosteroidogenesis pathway is crucial. Recent studies have demonstrated an alternative pathway for the biosynthesis of pregnenolone, which is classically produced by CYP11A1 but was found instead to be made by CYP1B1 in human glial cells. However, numerous studies have demonstrated Cyp11a1 expression and activity in rodent brain tissue and brain cells. To elucidate whether species differences exist for the pregnenolone synthesis enzyme in human and rodent brains, we sought to directly compare the expression levels of CYP11A1 and CYP1B1 in human, rat, and mouse CNS tissues. We found that CYP1B1 mRNA expression was significantly higher than that of CYP11A1 in almost all CNS brain regions in human, rat, and mouse. The exception is in the mouse cerebral cortex, where Cyp11a1 RNA was more abundant than Cyp1b1. However, Cyp11a1 protein was clearly detectable in rodent CNS while completely undetectable in human brain. In contrast, the presence of CYP1B1 protein can be observed in both human and rodent brains. These results suggest that CYP1B1 is likely the dominant pregnenolone synthesis enzyme in the human brain, while rodent brains may use both Cyp11a1 and Cyp1b1.

Keywords: CYP11A1; CYP1B1; Neurosteroids; Pregnenolone; Steroidogenesis.