new glaucoma treatment - static.livemedia.gr · promotion of retinal ganglion cell survival and...
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Prof.Dr.Murat IrkecDirector, Glaucoma Unit
Department of Ophthalmology,
Hacettepe University Faculty of Medicine
Ankara,Turkey
47th Panhellenic Ophthalmological Congress, Thessaloniki, 2014
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• Loss of neural tissue
• Activation of microglia
• Tissue remodeling
• Blood flow disturbances
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• Elevated IOP is the most important risk factorfor onset and progression of glaucoma.
• Increased ECM material in TM:
— Disturbed balance between ECM deposit anddegradation
— Disturbed balance between TGF-b2 andthe bone morphogenetic proteins (BMP-7i and BMP-4)
• Lowering the IOP (baroprotection) remains the only current therapeutic approach
IOP and GLAUCOMA
Wierzbowska J et al. Med Sci Monit 2010; 16: RA252-259
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FutureGlaucoma
Treatments
BARO-PROTECTION
NEURO-PROTECTION
GENE THERAPY
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BAROPROTECTION
A. Increase trabecular meshwork outflow
• Two main new therapeutic targets:
1. Alterations in TM cell activities or behaviour
• affect cell volume and shape• loosen cell-to-cell junction TM/Schlemm inner wall• loosen cell-to-ECM adhesion TM/Schlemm inner wall
2. Modulation of contractility of TM
B. Increase uveoscleral outflow
C. Decrease aqueous humour production
Wierzbowska J et al. Med Sci Monit 2010; 16: RA252-259
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Trabecularmeshworkoutflow:• Rho kinase• Endothelin-1• TGF-b• CTGF• NO• ANGPTL• Adenosine• Cannabinoids• Cochlin• Melatonin• Latrunculins• Ghrelin
Aqueous humourproduction:• Cannabinoid• Forskolin• Serotonin• AT II
Uveoscleral outflow:• Cannabinoid• Serotonin• Ghrelin• AT II
New therapeutic targets that lower intraocular pressureRocha-Sousa A et al. ISRN Ophthalmol 2013
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Rho Kinase Inhibitors
The Rho family is a group of guanosine triphosphatases (GTPases)
• Central role in cellular processes: actin cytoskeleton activity cell contraction and motility (actin-myosin related)
• Rho associated coiled coil-forming protein kinase (ROCK) is adownstream effector of Rho in the Rho-dependant signal pathway
Kersey T et al. Indian J Med Res 137;2013:659-668; Chen J et al. Clin Ophthalmol 2011;5:667-77
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Rho Kinase Inhibitors
• Rho kinases are expressed in ocular tissues, including TM and CM.
• Inhibition of ROCK activity inducesalterations in TM cellularresponses: migration adhesion changes in cell shape
Kersey T et al. Indian J Med Res 137;2013:659-668
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• Rho kinase inhibitors are widely considered as a new treatment for glaucoma.
• Rho kinase inhibition has been shown in vitro and in vivo to lower intraocular pressure.
• Furthermore, in the first clinical reports involving healthy human subjects, the results were quite promising.
• The inhibition of Rho kinase lowers the intraocular pressure by increasing the outflow through theTM.
• Increased blood flow to the optic nerve and a possible delay of optic nerve cell death has also been reported.
Rho Kinase Inhibitors
Colligris B et al. Recent Patents on Endocrine, Metabolic & Immune Drug Discovery 2012; 6:89-98
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• ROCK inhibitors offer at least four distinct applications relevant to glaucoma management: significant IOP-lowering effects improvement in ocular blood flow inhibition of postoperative scarring promotion of retinal ganglion cell survival and
axon regeneration
• Over the past decade, a considerable number of ROCK inhibitor candidates have failed during clinical testing
• Nonetheless, four ROCK inhibitor-based drugs (K-115, AR-13324, PG324, AMA0076) have continued to show promise as future glaucoma therapeutics
Rho Kinase Inhibitors
Wang SK, Chang RT Clin Ophthalmol 2014:8 883–890
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• Among the farthest along in the clinical trial process is K-115, developed by Kowa (Aichi, Japan).
• During phase II trials, dose-response treatment of 210 patients with primary open-angle glaucoma or ocular hypertension resulted in a mean IOP reduction of 4.5 mmHg for 0.4% K-115 after 2 hours. 1
• Another promising ROCK inhibitor designed for glaucoma therapy is AR-13324, Aerie Pharmaceuticals Inc., (Research Triangle Park, NC, USA) .
• Phase IIb demonstrated that once-daily administration could significantly lower IOP by 5.7–6.2 mmHg in patients with elevated IOP.2
• PG324 (triple action) is combination of latanoprost andAR-13324 (Phase IIb)
1Tanihara H et al.Am J Ophthalmol. 2013;156:731–736; 2 Kopczynski C et al. ARVO 2012 Annual Meeting; May 9; 2012; Fort Lauderdale, FL
Human Clinical Trials
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• Several new prostaglandin analogs (PGA) are in various stages of development.
• A second generation F2a prostaglandin agonist, -AR-102: 150-fold greater selectivity 30-fold greater potency at the FP receptor
(vs.latanoprost ) greater IOP efficacy in comparison with latanoprost a better tolerability than travoprost
• This product is planned to be delivered as an ocular implant (Aerie pharmaceuticals, Inc. data).
• Re-evaluation of PGE2 analogues (butaprost 0.1%)
New Prostaglandin Analogues
Wierzbowska J et al. Med Sci Monit 2010; 16: RA252-259
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• Latanoprost and nitric-oxide donatingmolecules:
greater IOP lowering that latanoprostaction through specific mechanisms, including relaxation of ciliary muscle
• Investigational nitric-oxide donating topicalcarbonic anhydrase inhibitor (CAI), dorzolamide
• Cholesterol-lowering statins: induce changes in cell morphology and
actin cytoskeletal organization through decreasing Rho guanosinetriphosphatase (GTPase) activity
Potential Antiglaucoma Molecules
Steele RM et al. Bioorg Med Chem Lett 2009; 19: 6565–70 ; Song J et al. Invest Ophthalmol Vis Sci 2005; 46: 2424–32
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• Recent studies have demonstrated the presence of cannabinoid CB1 and CB2 receptors in the TM cells1
• Some agents that are selective CB1 and CB2 receptors increase aqueous humor outflow through changes of TM cell morphology2
• Noladin, given topically, lowers IOP immediately, with maximum efficacy of 17% of IOP reduction, observed 2 hours after administration3
Potential Antiglaucoma Molecules
1Straiker AJ et al. Invest Ophthalmol Vis Sci 1999; 40: 2442–48 2Zhong L et al. Invest Ophthalmol Vis Sci 2005; 46: 1988–92 3Njie YF et a. Invest Ophthalmol Vis Sci, 2006; 47: 1999–2005
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• Anecortave acetate, an angiostatic cortisonewithout corticosteroid effects:
administered by sub-Tenon’s injection, IOP lowering (about 30%) for 3–12 months
after a single injection
• Mifeprostone (RU-486), an antiprogesteronesteroid:
a non-selective and selective corticosteroidreceptor antagonist
administered topically binds to the glucocorticoid receptor in TM
cells prevents binding of endogenous
glucocorticoids to this receptor
• DiureticsRobin AL et al. Am J Ophthalmol, 2009; 147: 45–50 Clark RD Curr Top Med Chem 2008; 8: 813–38
Potential Antiglaucoma Molecules
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• Vasoprotection represents an IOP-independent strategy for glaucoma.
• Activated astrocytes up-regulate the production of various molecules, including NOS-2, MMPs, TNF-aand endothelin.
Aminoguanidine and G-nitro-L-Arginine-Methyl Ester (L-NAME): NOS-2 inhibition
Down-regulation production of MMP-2 and MMP-9: Ilomastat
Endothelin-1 blockage:calcium channel blockers
VASOPROTECTION
Rocha-Sousa A et al. ISRN Ophthalmol 2013
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GENE THERAPY• Potential target structures or cells for
glaucoma gene therapy :
trabecular meshwork (TM) ciliary epithelium (CE) ciliary muscle (CM) RGCs, and Müller cells (MC) conjunctiva
Borrás T et al. Invest Ophthalmol Vis Sci, 2002; 43: 2513–18
The viral vectors have proven to be the most effective gene transfer system in experimental glaucoma.
Adenovirus (Ad) vectors appear to be optimal for anterior segment delivery, especially to the TM and CE.
Adeno-associated virus (AAV) vectors have highly selective tropism for RGC (intravitreal injection).
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• Manipulation of the biochemistry of TM by gene transfer:
modulate outflow resistance achieve IOP reduction
• Adenovirus vector carrying the MMP or myocilinreach TM cells after intracameral injection.
• Modulation of the activity of TGF-b2
• Adenovirus-delivered caldesmon in cultured human TM cells induced reorganization of the actin cytoskeleton, disruption of cell-cell and cell-matrix adhesions .
Grosheva I et al. Exp Eye Res 2006; 82: 945–58
GENE THERAPY
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STEM CELL THERAPY
• Reprogramming of adult somatic or germ cells to become induced pluripotent cells or somatic nuclear transfer cells
• Adult stem/progenitor cell might be expanded ex vivo to replace missing or nonfunctional TM cells in glaucomatous patients.
• Experimental studies on graft mesenchymal stem cells and mature retinal cells to replace the dead RGCs are being advanced.
KelleyMJ et al. Exp Eye Res 2009;88:747-51
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Novel Drug Delivery Methods
• New methods of drug delivery may be available soon.
• Nanocarriers, can also be used to enhance ocular drug delivery and to improve treatment efficacy:
nanoparticles (NP) dendrimers liposomes
• NP can be engineered from natural (albumin) orsynthetic (polylactide and polylactide-co-glycolide) biocompatible polymers.
• Experimentally, carbonic anhydrase inhibitors can be successfully attached to the NP<100 nm.
• Several stimuli-responsive NP have also been described for self-regulated drug delivery.
Jiang J et al. Invest Ophthalmol Vis Sci 2007; 48: 4038–43: Patil S et al. J Phys Chem 2007; 111: 8437–42
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CONCLUSION• IOP lowering will remain the most important
therapeutic strategy over the next decade.
• However, recent advances in the fields ofneurobiology, genetics and nanotechnologypoint to a number of novel promisingglaucoma therapies in the 21st century.