Anxiety-, and depression-like behavior following short-term finasteride administration is associated with impaired synaptic plasticity and cognitive behavior in male rats.

Finasteride, a 5α-Reductase inhibitor, is used to treat male pattern baldness and benign prostatic hyperplasia. Several clinical studies show that chronic finasteride treatment induces persistent depression, suicidal thoughts and cognitive impairment and these symptoms are persistent even after its withdrawal. Previous results from our lab showed that repeated administration of finasteride for six days induces depression-like behavior. However, whether short-term finasteride administration induces anxiety-like behavior and memory impairment and alters synaptic plasticity are not known, which formed the basis of this study. Finasteride was administered to 2-2.5 months old male Wistar rats for six days and subjected to behavioral evaluation, biochemical estimation and synaptic plasticity assessment. Anxiety-like behavior was evaluated in the elevated plus maze (EPM), open field test (OFT), light/dark test (LDT), and novelty suppressed feeding test (NSFT), and learning and memory using novel object recognition test (NORT) and novel object location test (NOLT) and depression-like behavior in the sucrose preference test (SPT). Synaptic plasticity in the hippocampal Schaffer collateral-CA1 was evaluated using slice field potential recordings. Plasma corticosterone levels were estimated using ELISA. Finasteride administration induced anxiety-like behavior in the EPM, OFT, LDT and NSFT, and depression-like behavior in the SPT. Further, finasteride induced hippocampal dependent spatial learning and memory impairment in the NOLT. In addition, finasteride decreased basal synaptic plasticity and long-term potentiation (LTP) in the hippocampus. A trend of increased plasma corticosterone levels was observed following repeated finasteride administration. These results indicate the potential role of corticosterone and synaptic plasticity in finasteride-induced effects and further studies will pave way for the development of novel neurosteroid-based therapeutics in neuropsychiatric diseases.

Mifepristone blocks the anxiolytic- and antidepressant-like effects of allopregnanolone in male rats.

BACKGROUND: Allopregnanolone (3α, 5α-tetrahydroprogesterone) is an inhibitory neurosteroid synthesized from progesterone via 5α-reductase activity in the brain and has anxiolytic, antidepressant, sedative, anticonvulsant, and analgesic activity. Altered levels of allopregnanolone cause anxiety, depression, premenstrual syndrome, and psychiatric disorders. Although allopregnanolone exerts most of its actions by modulating GABAA receptor, NMDA receptor, BDNF expression, and PXR activity, a recent study showed its effects are blocked by mifepristone on lordosis behavior which indicates the involvement of progestin or glucocorticoid receptors in the effects of allopregnanolone since mifepristone blocks both these receptors. However, whether these receptors are involved in acute anxiolytic or antidepressant-like effects is unknown. METHODS: Adult male Wistar rats were used to study whether the prior administration of mifepristone would alter the effects of allopregnanolone in the elevated plus maze (EPM) and forced swim test (FST) was evaluated. RESULTS: 10 mg/Kg dose of allopregnanolone increased percent open arm entries in the EPM, whereas 3 mg/Kg dose of allopregnanolone decreased percent immobility in the FST. Mifepristone administration resulted in a U-shaped response in the FST (with 1 mg/Kg, s.c., decreasing the immobility time) without significantly impacting the behavior in the EPM. In combination studies, mifepristone blocked the anxiolytic and antidepressant effects of allopregnanolone. CONCLUSION: The current study provides evidence for the first time that progestin or glucocorticoid receptors are involved in the acute anxiolytic and antidepressant effects of allopregnanolone. Understanding the mechanism of action of allopregnanolone will help us design better therapeutic strategies to treat neuropsychiatric diseases such as depression and anxiety.

Repeated finasteride administration induces depression-like behavior in adult male rats.

The enzyme 5α-Reductase (5α-R) catalyzes the formation of dihydrotestosterone, which is involved in male pattern hair loss and benign prostatic hyperplasia. Finasteride inhibits 5α-R and is used to treat both these conditions. Several clinical studies show that chronic finasteride treatment induces persistent depression, suicidal thoughts, and cognitive impairment. The neural mechanisms underlying these effects of finasteride are not known and it is imperative that an animal model that mimics the clinical neuropsychiatric effects of finasteride is developed. Accordingly, we evaluated the behavioral effects of acute and repeated finasteride administration. Two months old male Wistar rats were administered with either vehicle (hydroxypropyl-ß-cyclodextrin) or different doses of finasteride, subcutaneously, either acutely (30 min or 2 h) or for 1, 3, and 6 days (one dose per day). Behavioral despair and motivational behavior were evaluated in the forced swim test (FST) and splash test, respectively. FST and splash test were video-recorded and analyzed offline. Finasteride did not show any effects in the acute, one day or three days studies in the FST. However, repeated finasteride administration for 6 days significantly increased the immobility time. In the splash test, finasteride (100 mg/kg) administration increased the latency to groom and decreased the grooming duration implying lack of motivation in the three-day study. In the six-day study, latency to groom was significantly increased by the 100 mg/Kg dose. Further, a significant dose dependent decrease in the grooming duration was observed. In summary, our results indicate that repeated finasteride administration induces depression-like behavior in rats. This study provides the evidence that an animal model of finasteride-induced depression is feasible to investigate the cellular and molecular mechanisms, and the pharmacology underlying the neuropsychiatric effects of finasteride. Further, these results provide insights into the potential involvement of neurosteroids in depression and will lead to the development of novel therapeutics for its treatment.