This section contains the following key information:
- The pomegranate (Punica granatum L.) is native to Asia and cultivated widely throughout world.
- Various components of the pomegranate fruit contain bioactive compounds, including catechin phenolics, related flavonoids, and anthocyanins, some of which have antioxidant activity.
- Pomegranate juice and extract, as well as some of their bioactive components, inhibit the proliferation of various prostate cancer cell lines in vitro and induce apoptotic cell death in a dose-dependent manner.
- Cytochrome P450 enzyme inhibition and effects on insulin-like growth factor binding protein -3 (IGFBP-3) have been identified as being involved in the in vitro anticancer activity.
- Studies in rodent models of prostate cancer have shown that ingestion of pomegranate juice can decrease the rate of development, growth, and spread of prostate cancer.
- The only fully reported clinical trial of the use of pomegranate juice in men with prostate cancer showed that, on average, study participants who drank the juice had an increase in their prostate-specific antigen (PSA) doubling time.
- No serious adverse effects have been reported in clinical trials of pomegranate juice administration (8 oz per day for up to 33 months).
- A phase II study reported that pomegranate extract was associated with an increase of at least 6 month in PSA doubling time in both treatment arms (different doses), without adverse effects.
The pomegranate (Punica granatum L.) is a member of the Punicaceae family native to Asia (from Iran to northern India) and cultivated throughout the Mediterranean, Southeast Asia, East Indies, Africa, and the United States. The history of the pomegranate goes back centuries—the fruit is considered sacred by many religions and has been used for medicinal purposes since ancient times. The fruit is comprised of peel (pericarp), seeds, and aril (outer layer surrounding the seeds). The peel makes up 50% of the fruit and contains a number of bioactive compounds, including phenolics, flavonoids, and ellagitannins, and minerals such as potassium, magnesium, and sodium. Arils are mainly composed of water and also contain phenolics and flavonoids. Anthocyanins, which are flavonoid present in arils, are responsible for the fruit's and its juice’s red color. The majority of antioxidant activity comes from ellagitannins.
Research studies suggest that pomegranates have beneficial effects on a number of health conditions, including cardiovascular disease, and may also have positive effects on oral or dental health.Preclinical Studies/Animal Studies
Research studies in the laboratory have examined the effects of pomegranate on many prostate cancer cell lines and in rodent models of the disease.In vitro studies
Ellagitannins (the main polyphenols in pomegranate juice) are hydrolyzed to ellagic acid, and then to urolithin A (UA) derivatives. According to a tissue distribution experiment in wild-type mice, the prostate gland rapidly takes up high concentrations of UA after oral or intraperitoneal administration (0.3mg/mouse/dose). Ellagic acid was detected in the prostate following intraperitoneal, but not oral, administration of pomegranate extract (0.8mg/mouse/dose).
Treating human prostate cancer cells with individual components of the pomegranate fruit has been shown to inhibit cell growth.[8-11] In one study, dihydrotestosterone -stimulated LNCaP cells were treated with 13 pomegranate compounds at various concentrations (0-100 µM). Four of the 13 compounds, epigallocatechin gallate (EGCG), delphinidin chloride, kaempferol, and punicic acid, exhibited an ability to inhibit cell growth in a dose-dependent manner. Treating cells with EGCG, kaempferol, and punicic acid further resulted in apoptosis, with punicic acid (the primary constituent of pomegranate seeds) being the strongest inducer of apoptosis. Additionally, findings from this study suggest that punicic acid may activate apoptosis by a caspase-dependent pathway.
Pomegranate extracts have also been shown to inhibit the proliferation of human prostate cancer cells in vitro.[10,12,13] In one study, three prostate cancer cell lines (LNCaP, LNCaP-AR, and DU-145) were treated with pomegranate polyphenols [punicalagin (PA) or ellagic acid (EA)], a pomegranate extract (POMx, which contains EA and PA), or pomegranate juice (PJ, which contains PA, EA, and anthocyanins) in concentrations ranging from 3.125 to 50 µg/mL (standardized to PA content). All four treatments resulted in statistically significant increases in apoptosis and dose-dependent decreases in cell proliferation in the three cell lines. However, PJ and POMx were stronger inhibitors of cell growth than were PA and EA. In this study, the effects of PA, EA, POMx, and PJ on the expression of androgen -synthesizing enzyme genes and the androgen receptor were also measured. Although statistically significant decreases in gene expression occurred in LNCaP cells following treatment with POMx and in DU-145 cells following treatment with EA and POMx, significant decreases in gene expression and androgen receptor occurred in LNCaP-AR cells following all of the treatments. In another study, treating PC3 cells (human prostate cancer cells with a high metastatic potential) with POMx (10-100 µg/mL) resulted in cell growth inhibition and apoptosis, both in a dose-dependent manner. Treatment of CWR22Rv1 cells (prostate cancer cells that express the androgen receptor and secrete PSA) with POMx (10-100 µg/mL concentrations of pomegranate fruit extract) led to the inhibition of cell growth, a dose-dependent decrease in androgen receptor protein expression, and dose-dependent reductions in PSA protein levels.
The enzyme cytochrome P450 (CYP1B1) has been implicated in cancer development and progression. As a result, CYP1B1 inhibitors may be effective anti-carcinogenic targets. In a study reported in 2009, the effects of pomegranate metabolites on CYP1B1 activation and expression in CWR22Rv1 prostate cancer cells were examined. In this study, urolithins A and B inhibited CYP1B1 expression and activity.
In addition, the insulin-like growth factor (IGF) system has been implicated in prostate cancer. A study reported in 2010 examined the effects of a POMx on the IGF system. Treating LAPC4 prostate cancer cells with POMx (10 µg/mL concentration of pomegranate extract prepared from skin and arils minus seeds) resulted in cell growth inhibition and apoptosis, but treating the cells with both reagents led to larger effects on growth inhibition and apoptosis. However, these substances may have induced apoptosis by different mechanisms. Other findings suggested that POMx treatment reduced mTOR phosphorylation at Ser2448 and Ser2481, whereas IGFBP-3 increased phosphorylation at those sites. In addition, CWR22Rv1 cells treated with POMx (1 and 10 µg/mL) exhibited a dose-dependent reduction in IGF1 mRNA levels, but treatment with IGFBP-3 or IGF-1 did not alter levels of IGF1; these results suggest that one way POMx decreases prostate cancer cell survival is by inhibiting IGF1 expression.
In a study reported in 2011, human hormone -independent prostate cancer cells (DU145 and PC3 cell lines) were treated with 1% or 5% PJ for times ranging from 12 to 72 hours. The results showed that treatment with PJ increased adhesion and decreased the migration of prostate cancer cells. Molecular analyses revealed that PJ increased the expression of cell-adhesion related genes and inhibited the expression of genes involved in cytoskeletal function and cellular migration. These findings suggest that PJ may be beneficial in slowing down or preventing cancer cell metastasis.Animal studies
The effects of pomegranate on prostate cancer have been examined using a number of rodent models of the disease. In one study, athymic nude mice were injected with tumor-forming cells. Following inoculation, animals were randomly assigned to receive normal drinking water or PJ (0.1% or 0.2% POMx in drinking water, which resulted in an intake corresponding to 250 or 500 mL of PJ per day for an average adult human). Small, solid tumors appeared earlier in mice drinking normal water only than in mice drinking PJ (8 days vs. 11-14 days). Moreover, tumor growth rates were significantly reduced in mice drinking PJ compared with mice drinking normal water only. Animals drinking PJ also exhibited significant reductions in serum PSA levels compared with animals drinking normal water only. In other studies, treatment with a POMx resulted in decreased tumor volumes in SCID mice that had been injected with prostate cancer cells.[7,16]
Similarly, when nude mice were injected with pomegranate seed oil (2 µg/g body weight), pomegranate pericarp (peel) polyphenols (2 µg/g body weight), or saline 5 to 10 minutes prior to being implanted with solid prostate cancer tumors, mice injected with the pomegranate extracts had significantly smaller tumor volumes compared with the mice injected with saline (P < .001).
In another study, which was reported in 2011, 6-week-old transgenic adenocarcinoma of the mouse prostate (TRAMP) mice received normal drinking water or PJ (0.1% or 0.2% POMx in drinking water) for 28 weeks. The results showed that 100% of the mice that received water only developed tumors by 20 weeks of age, whereas just 30% and 20% of the mice that received 0.1% and 0.2% PJ, respectively, developed tumors. By 34 weeks of age, 90% of the water-fed mice exhibited metastases to distant organs whereas only 20% of the mice that received pomegranate juice showed metastasis. The PJ-supplemented mice exhibited significantly increased life spans compared to the water-fed mice.Human Studies
In a study reported in 2006, researchers observed the effects of PJ on PSA values in prostate cancer patients (N = 48) who had rising PSA levels following treatment with surgery or radiation therapy. The study participants drank 8 ounces of PJ daily (570 mg/day total polyphenol gallic acid equivalents) for up to 33 months. Drinking PJ was associated with statistically significant increases in PSA doubling time (PSADT). After 33 months of follow-up, the median PSADT increased from 11.5 months to 28.7 months (P < .001). In addition, LNCaP cells were treated in vitro with the subjects’ serum before and after the PJ intervention. Results of the in vitro experiments showed a decrease in cell growth and an increase in apoptosis following PJ treatment.
A phase II study evaluated 1-g and 3-g doses of pomegranate extract in 104 men with rising PSA values following initial therapy for localized prostate cancer. The study reported that pomegranate extract was associated with an increase of at least 6 months in PSA doubling time in both treatment arms, without adverse effects.Current Clinical Trials
Check NCI’s list of cancer clinical trials for CAM clinical trials on pomegranate-extract pill for prostate cancer, pomegranate juice for prostate cancer, and pomegranate liquid extract for prostate cancer that are actively enrolling patients.
General information about clinical trials is also available from the NCI Web site.Adverse Effects
In a study of prostate cancer patients reported in 2006, the PJ intervention was well tolerated and no serious adverse effects were observed.
In a pilot study reported in 2007, the safety of PJ in patients with erectile dysfunction was examined. No serious adverse effects were observed during this study, and no participant dropped out due to adverse side effects. In the analysis of the results, no statistical comparisons were made of the adverse side effects observed in the intervention arm and the placebo arm.References
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