Prevention of Liver Fibrosis to Cirrhosis
Hongqun Liu University of Calgary
Categories• Eliminate the causative agent(s) of liver injury; • Directly downregulate HSC activation;• Reduce inflammation or modulate inflammatory
cells;• “Hepatoprotection” to reduce hepatocyte injury;• Inhibit fibrogenesis; • Neutralize proliferative, fibrogenic, contractile
and/or proinflammatory factors; • Induce apoptosis of activated HSC; • Increase the degradation of extracellular matrix
(ECM).
Quiescent HSC
Injury (inflammation) Activated HSC
Proliferation
Matrix synthesis
Apoptosis
Anti-fibrosis
Ideal drugs: “Anti-fibrosis” Anti-inflammation Anti-angiogenesis
Anti-inflammatory drugs
Corticosteroids
• Useful for autoimmune hepatitis. But long term administration is not recommended.
Interleukin 10
• Shifts cytokines from proinflammatory to anti-inflammatory, decreases TNFα, IL-1 and 2 and IFNγ. However, increases viral load and therefore, not suiltabe for viral hepatitis.
Anti-TNFα
• Effective in cell culture of fibroblasts and HSC, not human
Antioxidants
“in vitro” and in experimental animals; limited evidence in humans.
• N-acetyl-cysteine (NAC): in cell cultures and in experimental animals, its antifibrosing properties is limited in humans
• Cu-Zn superoxide dismutase: Emerit mentioned the clinical trail in 2006 but so far no further document.
• Curcumin and silymarin: natural products, anti oxidant and inflammation (experimental)
HSC proliferation• TGFβ (Transforming Growth Factor beta)
• PDGF (Platelet derived growth factor)
• EGF (Epidermal Growth Factor),
• CTGF (Connective Tissue Growth Factor),
• VEGF (Vascular Endothelial Growth Factor),
• IGF (Insulin-like Growth Factor),
• bFGF (basic Fibroblast Growth Factor),
• RAAS (renin-angiotensin-aldosterone system)
• TGFα (Transforming Growth Factor alpha)
• Leptin, endothelin, thrombin, IL-1, endocannabinoids
TGFβThe most powerful fibrogenic factor• Inducing hepatic oval cells to HSC (You hong)• Inducing fibrogenic related gene transcriptions• Favoring HSC activation• Reducing ECM degradationSide effects of TGFβ blockage:Affecting the tissue and organ architecture such as bone integrity; excessive inflammation.
Collagen
• Synthesis: 4-prolylhydroxylase. Safironil. Activated in liver, experimentally useful, not in human.
• Secretion: colchicin, inconclusive in human• Formation of cross-linking among collagen
molecules: D-Penicillamine good for Wilson’s disease.
HSC inactivation
• PPARγ (Peroxisome Proliferator-Activated Re- ceptors): PPARγ ligands reduce activation of HSC, intensity of fibrosis, expression of TGFβ and proin- flammatory cytokines TNFα and IL-6, and increases PPARγ expression in HSC
• Retinoic acid ( in cell culture only, not animal and human)
• IL-10• Trans-resveratrol, • Pentoxifylline inhibits HSCs proliferation
HSC apoptosis
• Fas ligand and TNFα, P53, BCL2/Bax, NK and NKTγδ cells, MMPs, IFNγ
• RAIL receptor 2 (TNF-related apoptosis-induced ligand) (TRAIL-R2)
• Inhibition of PI 3-K/Akt signaling pathway induces apoptosis in HSC (Jiang)
• NF-κB knockdown enhances hepatic stellate cell apoptosis (Jiang)
Drugs for HSC apoptosisSorafenib (Tumor) J Hepatol. 2010;53:132-44• reduces HSC proliferation; induces apoptosis.
downregulates Cyclin D1 and Cyclin-dependent kinase 4 (Cdk-4), Bcl-2/Bax, collagen synthesis. ERK, Akt phosphorylation
• increases Fas, Fas-L, and Caspase-3, increases MMPs/TIMPs.
Nilotinib (Leukemia) J Hepatol. 2011;55:612-25• Ursolic acid (tumor) J Hepatol. 2011;55:379-87.• Gliotoxin (immunosuppressant) J Hepatol. 2007;
47:103-13.
Is the fibrosis/cirrhosis reversible?
• Animal experiments
CCL4, fibrosis/cirrhosis disappears
spontaneously when CCl4 discontinue
Bile duct ligation, liver will be back to when bile
duct ligation is released.
• Human
Spontaneous regression of liver fibrosis when
causative agent of disease is eliminated
Hurdles for clinical validation
1. Slow progression of liver fibrosis2. Lack of sensitive and specific
markers to evaluate progression and regression.
3. Well-stratified, high number of patients, long term treatment.
Well-stratified (1)
• Recent fibrosis, as characterized by the presence of thin reticulin (collagen) fibres, often in the presence of a diffuse inflammatory infiltrate, appears to be fully reversible;
• Histopathological evidence of significant fibrosis (F ≥2) incurs a high risk for progression to cirrhosis and is thus an indication for anti-fibrotic treatment.
Well-stratified (2)
Patients suitable for the anti-fibrogenic clinical trials:
• Rapidly progressing fibrosis such as in HCV re-infection after liver transplant or in HCV–HIV coinfection; 1–2 years trial;
• NASH, • Cholestatic CLD such as PBC, PSC or pediatric
biliary liver diseases; • Nonresponders to standard antiviral
treatment
Well-stratified (3)
• Long-standing fibrosis, as characterized by thick collagen fibrils embedded in an acellular or paucicellular ECM and consequent decreased expression and/or activity of fibrolytic MMPs, is not easy to reverse
Challenges from basic study to clinical application
• Time for progression and regression in humans is measurable in years
• Genetic differences affecting fibrosis progression and regression
• Insufficient performance of both liver biopsy and noninvasive methods to differentiate within and between a single stage of fibrosis (0-4),
• Ethical problems to include a placebo group;• Lack of data on the efficiency of a given treatment in CLD
with different etiologies• Difficulty to assess the impact of contributing factors (i.e.
obesity/overweight/insulin resistance, alcohol and tobacco consumption
• Realistic endpoints
• Fibrosis “scores” correlated with HVPG, ascites, INR, bilirubin and inversely with albumin; as well as Child-Pugh class
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As a result of liver injury, quiescent vitamin-A-rich hepatic stellate cells undergo 'activation' towards
proliferative, fibrogenic and contractile myofibroblasts excessive amounts of collagens, downregulate matrix
metalloproteinases (MMPs) and show an enhanced expression of the tissue inhibitors of the MMPs
(TIMP-1 & -2). During resolution of liver injury, hepatic stellate cells might revert to a quiescent phenotype and/or be selectively cleared by apoptosis.
Scott L Friedman : Nat Clin Pract Gastroenterol Hepatol 1(2),2004.
Hepatic stellate cell activation
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