Ursolic acid anti kanser

https://examine.com/supplements/ursolic-acid/

Ursolic acid is a phytochemical found in a wide variety of plants but most well known for being in apple peels.

Although the science is preliminary, it seems to be able to reduce fat accumulation and increase muscle mass gain when in a fed state, and to induce fat burning and preserve muscle mass when in a fasted state.

Animal studies have found benefits with ursolic acid in the diet at 0.05-0.2% of the diet, which is around 10-40mg/kg (based on their weight and food intake) and the estimated human dose equivalent to this is 1.6-6.4mg/kg bodyweight; for a 150lb adult it would be the range of 110-440mg.

The lone human study used the higher end of this range, 150mg three times a day with meals totalling 450mg each day, and found some biological acitivty. Until further research arises, thrice daily dosing of 150mg with meals is recommended.

1.1. Sources

Ursolic Acid is a pentacyclic triterpenoid that is very widely distributed in food products and herbs.

Major sources (Food products or common supplements) include:

·         Apples (high in the peels),^[1] Cranberry juices,^[2] and Grape skins^[3]

·         Ayurvedic herbs such as Holy Basil (0.25-0.48% dry weight)^[4], Ocimum gratissimum,^[5]Boswellia Serrata, Boerhaavia Diffusa, and Asparagus Racemosus

·         Traditional Chinese Medicine herbs including Ziziphus Jujuba, Salvia Miltiorrhiza, and Licorice

·         A Variety of herbs with reported anti-diabetic effects including Banaba Leaf, Gynostemma Pentaphyllum, and Crataegus Pinnatifida

·         Yerba Mate, Stinging Nettle, Vitex Agnus Castus

·         The Silphium family of plants, averaging around 1.5% dry weight^[6]

·         Lantana Camara,^[7]Orthosiphon aristatus,^[8]

·         Eriobotrya japonica^[9]

·         Common Spice herbs such as rosemary, thyme, oregano, and lavender^[10] and Sage (Salvia Officinalis)^[11]

·         Gentiana striata,^[12]Damnacanthus indicus,^[13]Periploca forrestii,^[14]Eucommia ulmoides,^[15] and various other non-supplemental herbs

2.3. Distribution

Following oral administraiton of 0.2% of the diet to rats over a period of 11 weeks (estimated dose of 40mg/kg), Ursolic Acid can be detected in the kidney plasma (2.83+/-0.47nmol/mg) and the kidney tissue itself (3.51+/-0.57nmol/mg);^[22] no other organs were tested, and lower doses (0.05-0.1%) were not detected.

2.4. Metabolism

One study that gave rats either Ursolic Acid or Oleanolic Acid (related structure) noted that at the higher doses of both supplements that there was a detectable serum level of the other, suggesting that interconversion between the two exists after oral administration in rats.^[22]

3.1. Artherosclerosis

Concentrations of 10uM and 30uM of ursolic acid in the drinking water of ApoE knockout rats, over 24 weeks, can accelerate artherogenic plaque formation.^[23] These results may not be highly extrapolatable, as ApoE knockout mice have screwed lipid profiles already.^[24]

Conversely, a low dose of Ursolic Acid (0.2% of the diet) fed to mice with diabetes induced by streptozotocin and lacking an LDL receptor found that ursolic acid was able to reduce by 53% the inherent lesions that occur in the endothelium with diabetes; suggesting a protective but not necessarily rehabilitative effect.^[25] This protective effect was more potent than resveratrol at 0.2%. Ursolic acid was also able to reduce monocyte migration to the endothelium, which is seen as an inflammatory response (and thus, ursolic acid in part protects via anti-inflammatory means).^[25]

The discord between the two studies above^[24][25] has been investigated by a third part.^[26] In general, the two cannot be directly compared due to large differences in methodology.

3.2. Endothelium

One study noted that, in vitro, in human umbilical vein endothelial cells (HUVECs) as well as cells taken from humans, ursolic acid was able to prevent cell differentiation and induce cell death in both cell cultures potently at 12.5uM, and in isolated cells at 6.25uM. Lower doses did not have any influence on cell death, and 3.125uM has a non-significant increase in cell differentation relative to controls in isolated cells.^[23]

4.2. Absorption

Ursolic acid, similar to structurally related pentacyclic triterpenoids, appears to inhibit α-amylase activity although to a greater potency than Corosolic acid or Lupeol.^[35]

4.3. Interventions

Ursolic Acid appears to beneficially influence parameters of Diabetes when used as combination therapy alongside Rosiglitazone (anti-diabetic drug) in mice given both concurrently.^[36]

In streptozotocin-induced diabetic mice, Ursolic acid as monotherapy note that 0.05% of the diet (approximately 10mg/kg) can reduce blood glucose by 12.3% relative to control in 4 weeks^[37] with another study using fourfold this dose (0.2%) over a period of 11 weeks decreased blood glucose to 53% of high-fat fed diabetic control (although still twice that of healthy control).^[25] Ursolic acid tends to decrease blood glucose in a dose dependent manner (as some studies have tested graded intakes of Ursolic acid within this range of 0.05-0.2%^[22]) with similar potency to Oleanolic Acid.^[22]

Decreases in HbA1c have been noted with 0.05% of the diet as Ursolic Acid in diabetic mice (9.5%), with 0.1% (19%) and 0.2% (34%; all values relative to diabetic control) over 10 weeks, which coexisted with a reduction in urinary glycosylated proteins and Ursolic acid being nonsignificantly less effective than Oleanolic acid.^[22]

A decrease of Aldose Reductase activity has been noted in vivo with oral Ursolic Acid in a dose dependent manner, which at 0.2% reached 67% of diabetic control (still 59% higher than nondiabetic control, and was not absolute protection),^[22] which validates previous in vitro studies noting Aldose Reductase inhibition with Ursolic Acid in a noncompetitive manner.^[38] The in vivo study also noted minor beneficial trends in the activities of sorbitol dehydrogenase and glyoxalase I,^[22] and anti-glycative properties have been noted to occur in hepatic tissue as well,^[37] where a beneficial trend of glucose regulatory enzymes (suppressing glucose-6-phosphatase and upregulating glucokinase) occurs with 0.05% of the feed .^[37]

Beyond anti-glycative protective effects, low doses of Ursolic Acid (0.01% of rat feed) have been noted to attenuate the rate of developing diabetic nephropathy possibly secondary to anti-inflammatory properties^[39] and less artherosclerotic lesions have been noted with Ursolic Acid, which were slightly more protective than an equal dose (0.2% of the diet) resveratrol.^[40]

5.1. Mechanisms

Upregulation of c-Cbl associated protein (aka. CAP) protein content and mRNA has been noted in adipocytes treated with 4-20uM Ursolic Acid.^[41]

Ursolic acid at 4-20uM appears to augment Rosiglitazone-induced glucose uptake into insulin resistance fat cells in vitro, although combination treatment was associated with less adipocyte differentiation than Rosiglitazone alone.^[41]

Ursolic acid appears to increase lipolysis in vitro via Protein Kinase A activation, and downstream of that Hormone Sensitive Lipase (HSL) and Perilipin A activity.^[42] Upregulation of Adipose Tissue Lipase (ATGL) has been noted in adipocytes independent of PKA.^[42]

5.2. Absorption

100mg/kg Ursolic Acid in rats appears to attenuate the increase in triglycerides in response to a fatty meal, which was thought to be through inhibiting pancreatic lipase;^[43][44] an estimated human equivalent dosage is 16mg/kg.

5.3. Interventions

10mg/kg (rat dose) Ursolic acid over 15 weeks to otherwise healthy rats fed a high-fat diet is able to attenuate a 24% increase in body weight to 10.7%, which is not significantly different than the active control of 10mg/kg Sibutramine.^[45] This study noted that the high-fat induced alterations in adipokines (Ghrelin, Leptin) and liver histology were otherwise normalized in both intervention groups, and that Ursolic acid was associated with an increase in insulin levels relative to high fat control and reduced glucose levels relative to all groups including normal chow control.^[45]

5.1. Mechanisms

Upregulation of c-Cbl associated protein (aka. CAP) protein content and mRNA has been noted in adipocytes treated with 4-20uM Ursolic Acid.^[41]

Ursolic acid at 4-20uM appears to augment Rosiglitazone-induced glucose uptake into insulin resistance fat cells in vitro, although combination treatment was associated with less adipocyte differentiation than Rosiglitazone alone.^[41]

Ursolic acid appears to increase lipolysis in vitro via Protein Kinase A activation, and downstream of that Hormone Sensitive Lipase (HSL) and Perilipin A activity.^[42] Upregulation of Adipose Tissue Lipase (ATGL) has been noted in adipocytes independent of PKA.^[42]

5.2. Absorption

100mg/kg Ursolic Acid in rats appears to attenuate the increase in triglycerides in response to a fatty meal, which was thought to be through inhibiting pancreatic lipase;^[43][44] an estimated human equivalent dosage is 16mg/kg.

5.3. Interventions

10mg/kg (rat dose) Ursolic acid over 15 weeks to otherwise healthy rats fed a high-fat diet is able to attenuate a 24% increase in body weight to 10.7%, which is not significantly different than the active control of 10mg/kg Sibutramine.^[45] This study noted that the high-fat induced alterations in adipokines (Ghrelin, Leptin) and liver histology were otherwise normalized in both intervention groups, and that Ursolic acid was associated with an increase in insulin levels relative to high fat control and reduced glucose levels relative to all groups including normal chow control.^[45]

6.1. Myokines

Irisin is a myokine (although it can be secreted from other tissues such as the brain, heart, and adipose^[46]) that is known to in part be correlated with IGF-1 kinetics, although its overall role in skeletal muscle physiology and exercise is still being elucidated.^[47][48]

Supplementation of 150mg ursolic acid three times daily with meals (totalling 450mg daily for eight weeks) in otherwise healthy men subject to resistance training appears to be effective in increasing serum irisin by 12% relative to placebo.^[49] This observation occurred alongside a 22.8% increase in IGF-1 relative to baseline despite no change occurring in the placebo group given resistance training, although eight weeks was insufficient to alter lean or fat mass significantly.^[49]

6.1. Myokines

Irisin is a myokine (although it can be secreted from other tissues such as the brain, heart, and adipose^[46]) that is known to in part be correlated with IGF-1 kinetics, although its overall role in skeletal muscle physiology and exercise is still being elucidated.^[47][48]

Supplementation of 150mg ursolic acid three times daily with meals (totalling 450mg daily for eight weeks) in otherwise healthy men subject to resistance training appears to be effective in increasing serum irisin by 12% relative to placebo.^[49] This observation occurred alongside a 22.8% increase in IGF-1 relative to baseline despite no change occurring in the placebo group given resistance training, although eight weeks was insufficient to alter lean or fat mass significantly.^[49]

6.2. Mechanisms

Ursolic acid is implicated as being an agent to counter genetic responses of fasting that mediate muscle breakdown.^[34] When fed to mice at 0.14% and 0.27% of the diet by weight (overall intake unknown) it was able to prevent muscle breakdown via genetic signalling that is the opposite of those that mediate muscle breakdown from fasting, and it was able to increase skeletal muscle accrual by increasing anabolic gene transcription, most notably that of IGF-1.^[34] It did not seem to increase IGF-1 expression in adipose tissue, suggesting that this activity is specific to skeletal muscles. This anabolic effect has been replicated in vitro showing protein accrual and increasing muscle cells size, but does not influence muscle cell differentiation.^[50]

Injections of 200mg/kg bodyweight, twice a day for 7 days, was shown in rats to reduce muscle protein loss associated with fasting.^[34]

Increases in muscle protein synthesis are seen at 1uM, but become statistically significant at 10uM.^[50] It is fairly dose-dependent of a response in increasing protein accrual, but concentrations exceeding 25uM induce loss of protein from cells and myotoxicity.^[50] The growth was only seen in vitro with growth medium rather than differentiation medium or serum-free medium, the difference being GM using 10% fetal bovine serum albumin and DM 2% horse serum. These results suggest that ursolic acid may augment amino acid accrual from serum amino acids, or food.^[50]

Ursolic acid's influence on muscle cells appears to not influence ribosomal content nor satellite cells, as evidence by no changes in RNA content of muscle cells incubated with ursolic acid and no myocyte differentation.^[50]

Ursolic acid can also increase insulin-induced phosphorylation of Akt (an intermediate in muscle protein synthesis), which is linked to muscle protein synthesis.^[51] Another intermediate downstream of Akt and phosphorylated by S6K1/S6K2, rpS6, is only increased under good growth conditions in vitro but can be upregulated 1.8-fold.^[50]

In rats subject to resistance training, an infusion of ursolic acid appears to sustain the exercise-induced activation of p70S6K (downstream of mTOR) for a more prolonged period of time than control exercise.^[52]

Low dosages appear to beneficially influence skeletal muscle, but higher dosages have been implicated in preserving muscle mass during fasting. These higher dosages may not be feasible due to low oral bioavailability, but lower dosages are definitely possible. Many of the effects seen are related to the insulin-signalling pathway of muscle anabolism. Low dosages appear to beneficially influence skeletal muscle, but higher dosages have been implicated in preserving muscle mass during fasting. These higher dosages may not be feasible due to low oral bioavailability, but lower dosages are definitely possible. Many of the effects seen are related to the insulin-signalling pathway of muscle anabolism.

9.1. Prostate

A rat model of benign prostatic hyperplasia using 5mg/kg Ursolic acid oral administration alongside testosterone injections noted suppression of prostatic growth to a similar degree as the active control (10mg/kg Finasteride) and a suppression of both testosterone and DHT rivalling Finasteride in magnitude; Finasteride was more effective in reducing serum levels of prostate specific antigen (PSA).^[57] The authors hypothesized a 5α-reductase inhibiting effect, although it was not established in vitro in this study (this study was responded to,^[58] which merely discussed the need more research and product standardization).

9.2. Liver

In studies measuring liver enzymes, there is no increase following 5mg/kg oral ingestion for 4 weeks.^[57]

10.1. Angiogenesis

Ursolic acid (as well as related compounds maslinic acid and oleanolic acid^[59]) is known as an angiogenesis inhibitor, preventing the formation of new blood vessels from larger ones. In blood vessel cells, ursolic acid seems to act via inhibiting the PI3K-Akt pathway and Nitric Oxide induction, which suppresses cellular changes preceding angiogenesis.^[59][60] These results have been seen in vivo with nontoxic dosages of ursolic acid, and ursolic acid also inhibits expression of MMP2 and MMP9 (intermediates required for the final stages of angiogenesis into new tissue)^[61]

This inhibition of vascularization is currently under investigation for its anti-cancer therapeutic potential, as new tumor cells require blood flow and need angiogenesis to occur for them to survive.^[62] The previous study that tested rats with ursolic acid noted that the experimental group having ursolic acid at 4.25mcg/kg (50umol/kg) for 5 days had 42.03% as much vascularization in melanoma tumors as control (untreated).

11.1. Male fertility

Ursolic acid, when fed to rats at 5mg/kg bodyweight, was able to cause infertility by inhibiting spermatogenesis.^[63] Specifically, it causes breaking of bridges in between cells that are soon to be sperm, and the damaged cells then collect to form symplasts in the Seminiferous Tubules that are associated with male infertility. It does not appear to cause long-term damage to the testes.

At least one other in vitro study noted that ursolic acid was able to reduce sperm motility.^[64]

11.2. DNA

One study noted that ursolic acid was able to induce cell death in endothelial cells when the concentration exceeded 12.5uM, and that the mechanism of death was apoptosis related; DNA strand breaks were noted 6 hours after incubation via p53.^[23] The DNA strand breaks were later seen in vivo in ApoE deficient mice when the water was spiked with 10uM or 30uM of ursolic acid.