Benign prostatic hyperplasia (BPH) is the benign uncontrolled growth of the prostate gland, leading to difficulty with urination. Saw palmetto lipid extracts (SPLE), used to treat BPH, have been shown to inhibit prostate 5a-reductase, and some major components, such as lauric, myristic and oleic acids also inhibit this enzyme. Coconut oil (CO) is also rich in fatty acids, mainly lauric and myristic acids. We investigated whether CO prevents testosterone-induced prostate hyperplasia (PH) in Sprague-Dawley rats. Animals were distributed into seven groups (10 rats each). A negative control group were injected with soya oil; six groups were injected with testosterone (3 mg kg(-1)) to induce PH: a positive control group, and five groups treated orally with SPLE (400 mg kg(-1)), CO or sunflower oil (SO) (400 and 800 mg kg(-1)). Treatments were given for 14 days. Rats were weighed before treatment and weekly thereafter. Rats were then killed and the prostates were removed and weighed. CO (400 and 800 mg kg(-1)), SPLE (400 mg kg(-1)) and SO at 800 mg kg(-1), but not at 400 mg kg(-1), significantly reduced the increase in prostate weight (PW) and PW:body weight (BW) ratio induced by testosterone (% inhibition 61.5%, 82.0%, 43.8% and 28.2%, respectively). Since CO and SPLE, but not SO, contain appreciable concentrations of lauric and myristic acids, these results could be attributed to this fact. In conclusion, this study shows that CO reduced the increase of both PW and PW:BW ratio, markers of testosterone-induced PH in rats.
Background: Benign prostatic hypertrophy is the nonmalignant, uncontrolled growth of prostatic epithelial cells and stroma that, left untreated, may lead to difficult urination and other complications. A common treatment of BPH is lipid extract from saw palmetto fruit, and lipid extract from Cuban Royal palm (a palm of the same family) fruit is being studied for this use. One study found that the latter, D-004, at 100 to 400 mg/kg daily prevented prostatic hypertrophy (PH) induced with testosterone (T) in a rat model.
Objectives:This study comprised 2 experiments in a rat model. The first assessed the effects of different doses of D-004 on T-induced PH; the second investigated the effects of D-004 on PH induced with dihydrotestosterone (DHT).
Methods:In experiment 1, rats were distributed in 6 groups of 10 rats each. One group received an SC injection of soy oil and oral treatment with Tween 65/ water vehicle (negative control). The other 5 groups received an SC injection of T 3 mg/kg daily and oral treatment with vehicle (positive control) or D-004 at 50, 200, 400, or 800 mg/kg daily suspended in vehicle. In experiment 2, rats were distributed in 3 groups of 10 rats each. A negative control group received treatment as in experiment 1. Positive controls received an SC injection of DHT 1.5 mg/kg and vehicle orally. The third group received an SC injection of DHT and oral treatment with D-004 at 800 mg/kg suspended in vehicle. All treatments were given for 14 days. At sacrifice, prostates were removed and weighed. Mean prostatic weights and prostatic/body weight ratios were calculated.Results: In experiment 1, in the groups receiving D4)04 at 200,400, or 800 mg/kg daily, prostatic weight was significantly lower compared with the positive control group (P < 0.05, P < 0.01, and P < 0.001, respectively); this effect was not seen in the group receiving 50 mg/kg daily. In the groups receiving D-004 at 400 and 800 mg/kg daily, prostatic/body weight ratio was significantly lower compared with positive controls tooth, P < 0.05); this effect was not seen in the groups receiving 50 or 200 mg/kg daily. In experiment 2, prostatic weight and prostatic/body weight ratio Accepted for publication August 31, 2004. in the group receiving D-004 were similar to those of positive controls. Body weight was not affected in any of the groups receiving D-004.
Conclusions:This study of rats with T-or DHT-induced PH suggests that D-004 at 200 to 800 mg/kg daily administered orally prevents T-induced PH, and that D-004 at 800 mg/kg daily does not prevent DHT-induced PH. (Curr TherRes Clin Exp. 2004;65:505-514)
Transmural electrical stimulation was carried out on innervated strips of the longitudinal muscle of guinea pig ileum. Disodium cromoglycate (DSCG) inhibited the electrically induced contractions. Five minutes later, prostaglandin E2 (2.5 ng/ml) was added to the bath and it reversed the action of DSCG. Furthermore, DSCG inhibits significantly the guinea pig ileum contractions induced by nicotine and also those induced by histamine and acetylcholine on ileum denervated by cooling. These results suggest that DSCG effects on guinea pig ileum contraction are mediated by membrane-stabilizing properties of this drug on smooth muscle fibres as well as on myenteric plexus.
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