Rhein

Rhein Uses, Dosage, Side Effects, Food Interaction and all others data.

Rhein is an anthraquinone metabolite of rheinanthrone and senna glycoside is present in many medicinal plants including Rheum palmatum, Cassia tora, Polygonum multiflorum, and Aloe barbadensis . It is known to have hepatoprotective, nephroprotective, anti-cancer, anti-inflammatory, and several other protective effects.

*Liver: *Reverses animal models of non-alcoholic fatty liver disease by lowering liver lipids and reducing inflammation . Also reverses and prevents fibrosis in liver injury .

*Kidney: *Protects against fibrosis in nephropathy models and improves epithelial tight junction function .

Trade Name Rhein
Generic Rhein
Type
Formula C15H8O6
Weight Average: 284.2204
Monoisotopic: 284.032087988
Protein binding

99% bound to plasma proteins .

Groups Experimental
Therapeutic Class
Manufacturer
Available Country
Last Updated: September 19, 2023 at 7:00 am
Rhein
Rhein

Uses

No approved indication.

How Rhein works

*Liver: *The reversal of non-alcoholic fatty liver disease stems from rhien's lipid lowering and anti-obesity actions which result in an overall decrease in body weight, high density lipoprotein, and low density lipoprotein as well as its anti-inflammatory action . The reversal of hepatic fibrosis is thought to be due to rhien's anti-inflammatory and anti-oxidant action which suppresses the pro-fibrotic signalling from macrophages and further damage from reactive oxygen species respectively . Ultimately this results in reduced expression of alpha-smooth muscle actin (Alpha-SMA) which is indicative of decreased hepatic stellate cell and myofibroblast activation. Rhein also appears to suppress the expression of transforming growth factor-Beta (TGF-Beta)

*Kidney: *The protection from fibrosis in the kidney also appears to stem from rhien's anti-inflammatory action resulting in less inflammatory cell infiltration along with suppression of alpha-SMA and fibronectin expression . These indicate a reduction in the activation of interstitial fibroblasts which are responsible for excess production of extracellular matrix components. Rhien may also suppress TGF-beta expression in the kidney. The anti-fibrotic mechanism of rhien may involve the upregulation of bone morphogenetic protein 7 and hepatic growth factor . In diabetic nephropathy rhein appears to suppress the expression of integrin-linked kinase leading to a reduction in the matrix metalloproteinase-9/tissue inhibitor of matrix metalloproteinase-1 ratio . The improvement of epithelial tight junction function seems to involve upregulation of zona occludins protein-1 and occludin expression .

Bone and joint:Rhein reduces cartilage destruction by decreasing expression of matrix metalloproteinase (MMP)-1 and -3 as well as upregulating tissue inhibitor of matrix metalloproteinases which serve to reduce the activity of several MMPs . The anti-inflammatory action of rhein reduces the level of interleukin-1beta activity which plays a large role in reduction of extracellular matrix production, MMP activity, and continued inflammation . Rhein reduces abnormal osteoblast synthetic activity through an unknown mechanism .

*Lipid lowering and anti-obesity: *Rhein is known to bind and inhibit liver X receptor alpha and beta with Kd values of 46.7 microM and 31.97 microM respectively . This decreases the expression of genes such as that of sterol regulatory element binding transcription factor 1 (SREBP1c) and its downstream genes for fatty acid synthase (FAS), steroyl-coenzyme A desaturase 1 (SCD1), and acetyl CoA carboxylase 1 (ACC1). SREBP1c, FAS, SCD1, and ACC1 are all involved in adipogenesis and their suppression results in less fat content. The genes for ABCA1 and ABCG1 are also suppressed. These correspond to cholesterol efflux trasporters and likely explain the reductiion in HDL and LDL seen with rhein. The inhibition of LXR by rhien relieves the inhibition on uncoupling protein 1 expression in brown adipose tissue. The result of this is increased thermogenesis which likely plays a role in the reduction of body weight produced by rhien. Additionally, rhein may downregulate peroxisome proliferator-receptor gamma and its downstream genes to inhibit adipocyte differentiation .

Anti-oxidant/Pro-oxidant: The antoxidant mechanism is unknown. The pro-oxidant action of rhien may involve the inhibition of mitochondrial respiratory complex 1 and subsequent facilitation of NADH and NADPH dependent lipid peroxidation .

Anti-cancer: The exact mechanism of rhein's ability to damage DNA and supress the expression of DNA repair enzymes ADR and MGMT is unknown . The mechanism through which rhien induces ER stress is unknown but likely involves its pro-oxidant properties . Rhein has been observed to produce increases in cytosolic calcium, reductions in mitochondrial membrane potential, and upregulation of pro-apoptotic proteins as well as leakage of cytochrome C which would induce apoptosis via the intrinsic pathway. The reduction of matrix metalloproteinase-9 serves to prevent extra cellular matrix breakdown by cancer cells and hinders their invasion into surrounding tissue . Rhein also decreases vascular endothelial growth factor expression through an unknown mechanism to prevent cancer cells from stimulating agiogenesis. Rhein reduces the activity of the nuclear factor kappa (NFkappaB) pathway by preventing the destruction of IKBalpha . The activity of the phosphoinositol 3-kinase/Akt pathway is also reduced by rhien . Rhein's inhibition of the mitogen-activated protein kinase pathways (particularly those involving extracellular signal regulated kinase) appears to follow a U-shaped dose response curve. ERK phosphorylation is inhibited at low concentrations of around 3microM but activated at higher concentrations of around 30microM . Furthermore, ERK phosporylation is again inhibited at extremely high concentrations in excess of 100 microM . The suppression of these three pathways is likely involved in the anti-proliferative effects of rhein.

Anti-inflammatory: The mechanism of rhein's anti-inflammatory effect likely involves its inhibition of the NFkappa B pathway which plays a role in the production of many pro-inflammatory cytokines . Rhein's anti-oxidant activity may also play a role in preventing damage during inflammation.

Anti-diabetic: Rhein is thought to increase islet beta cell survival by suppressing the expression of dynamin-related protein 1 and thereby preventing mitochondrial fission . Rhein's anti-oxidant properties are also thought to play a role in protecting islet beta cells. The reduction in plasma glucose is likely due to increased survival of islet beta cells and subsequent increases in insulin secretion. Rhein's anti-inflammatory action may also serve to reduce insulin resistance.

Anti-microbial: Rhien inhibits H. pylori arylamine N-acetyltransferase in a dose dependent manner . The mechanism of rhein's anti-microbial effect on H. pylori and S. aureus are unknown.

Anti-allergenic: Rhien inhibits 5-lipoxygenase with an IC50 of 13.7microM . Rhien also inhibits mast cell degranulation although the specific mechanism is unknown.

Toxicity

Oral LD50 of >5000mg/kg in mice .

Volume of Distribution

15-60L .

Elimination Route

Tmax of 1.6-2.6 hours .

Half Life

4-10h .

Clearance

Total CL is 1.5 L/h and renal CL is 0.1 L/h .

Elimination Route

37% is excreted in urine and 53% in feces as estimated in rats .

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