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Complications in Type 1 Diabetes: Nephropathy

Complications in Type 1 Diabetes: Nephropathy. Peter A. Gottlieb, MD Barbara Davis Center University of Colorado Health Sciences Center Denver, CO. Why do complications occur?. Insulin hypothesis Glucose hypothesis DCCT and many other studies support glucose hypothesis.

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Complications in Type 1 Diabetes: Nephropathy

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  1. Complications in Type 1 Diabetes: Nephropathy Peter A. Gottlieb, MD Barbara Davis Center University of Colorado Health Sciences Center Denver, CO

  2. Why do complications occur? • Insulin hypothesis • Glucose hypothesis • DCCT and many other studies support glucose hypothesis

  3. EDIC: Long Term Benefit of Intensive Treatment • The Diabetes Control and Complications Trial/Epidemiology of Diabetes Interventions • and Complications Research Group. N Engl J Med 2000;342:381-9.

  4. EDIC: Long Term Benefit of Intensive Treatment • The Diabetes Control and Complications Trial/Epidemiology of Diabetes Interventions • and Complications Research Group. N Engl J Med 2000;342:381-9.

  5. EDIC: Long Term Benefit of Intensive Treatment - The Diabetes Control and Complications Trial/Epidemiology of Diabetes Interventions and Complications Research Group. N Engl J Med 2000;342:381-9.

  6. Transient hyperglycemia leads to oxidative stress which increases complications • Testing of this hypothesis is needed to determine if this is indeed true

  7. Diabetic Nephropathy: Pathogenesis • Increased intraglomerular pressure • Mesangial cell expansion • Reactive Oxygen Species (ROS) • Endothelial cell dysfunction • Increased Glomerular Basement Membrane Thickness and Interstitial Fibrosis

  8. DETAIL Study: Head to Head Comparison of ACE vs. ARB in Type 2 DN • 5 yr, prospective, multicenter, randomized study in T2DM with HTN and early DN • 120 subjects onTelmisartan 40-80 mg/day vs. 130 subjects on Enalapril 10-20 mg/day • Primary endpoint: Change in GFR • Secondary endpoints: Change in albuminuria, BP, CR, other CV outcome measures

  9. DETAIL:Baseline Characteristics

  10. DETAIL: Equivalent Protection from ACE and ARB in Change GFR

  11. DETAIL: Key Points • Use of ACE or ARB slows down loss of GFR in T2DM with nephropathy • Confirms previous shorter term studies • Additional protection seen for CV complications

  12. ACE and ARB Lower Proteinuria better than ACE alone in T2DM • Small 24 week study with 26 pts demonstrated that combination therapy of Losartan with Enalapril reduced proteinura greater than increased dose of Enalapril alone • Blood pressure was similarly lowered in both groups • CRP levels were lowered in combined treatment group, unchanged in ACE alone • Other parameters measured were not significantly different between groups Igarashi, et al, Endocrine Journal, 2006, epub

  13. Prevention and Treatment of Diabetic Nephropathy in T1DM • Periodic screening for microalbuminuria – timed overnight samples beginning at 5 years from diagnosis • Treatment of either microalbuminuria or HTN (to 120/80 or age-matched target) with ACE or ARB • Use ACE or ARB, ACE with ARB and Diuretics, then consider other therapies based on clinical considerations

  14. How do complications occur? • Activation of Polyol Pathway • Accumulation of Advanced Glycosylation End Products • Protein Kinase C Pathway • Flux Through the Hexosamine Pathway • Oxygen Radicals and Enhanced Oxidative Stress • Altered Expression of Growth Factors and Vasoactive Mediators

  15. Aldose Reductase and Polyol Pathway - Brownlee, M. Nature 2001 414:13 813-820.

  16. AGE Pathway - Brownlee, M. Nature 2001 414:13 813-820.

  17. How can we intervene? • Polyol Pathway – Sorbinil, Zenarestat • Advanced Glycosylation End Products – Aminoguanidine, sR RAGE • Protein Kinase C Pathway – Selective PKC inhibitors such as LY333531 • Flux through Hexamine – ? • Oxidative Stress – Vitamin C, Vitamin E, a lipoic acid • Altered Expression of Growth Factors – VEGF inhibitors

  18. Effect of a-lipoic acid on experiemental diabetic retinopathy Lin, et al, Diabetologia, 2006, 49:1089-1096

  19. Do they work? • Sorbinil, Zenarestat - Toxicity, Ineffective • Aminoguanidine, sR RAGE - ? • PKC inhibitors - LY333531 - Maybe • Flux through Hexamine – ? • Oxidative Stress – Vitamin C, Vitamin E, a lipoic acid – Small effect? • Altered Expression of Growth Factors – VEGF inhibitors - Unknown

  20. Why have our best efforts not succeeded? • Toxicity • Drug Development – Efficacy • Need to target multiple pathways at once • Or something else?

  21. Unified Theory of Complications - Brownlee, M. Nature 2001 414:13 813-820.

  22. Inhibition of GAPDH Affects Multiple Complication Pathways - Du X, et al. J. Clin. Invest. 112:1049–1057 (2003).

  23. New Therapeutic Approaches • Glyceraldehyde-3-phosphate and fructose-6-phosphate are major substrates for complication pathways • Benfotiamine, is a derivative of the B vitamin thiamine • Activates the thiamine dependent pentose phosphate enzyme transketolase which converts these compounds away from these pathways • Affecting this pathway changes substrate availability for polyol, hexosamine, diacylglycerol (PKC), AGE pathway and NF-kB signaling

  24. MMF and ACE synergize to Reverse Experimental DN Wu, et al. Inflamm res. 2006. 192-199

  25. MMF and ACE synergize to Reverse Experimental DN TGFb ED1 MCP-1 Wu, et al. Inflamm res. 2006. 192-199

  26. Unified Theory of Complications Benfotiamine PARP inhibitors - Brownlee, M. Nature 2001 414:13 813-820.

  27. New Therapeutic Approaches • Molecules which can affect GAPDH activity • Superoxide Dismutase • Poly(ADPribose)polymerase (PARP) inhibitors, PJ34

  28. Summary • Tight control of blood sugars is the best means to prevent and reverse complications of diabetes • Reducing glycemic variability may also contribute to the development of complications and can be achieved with CGMS • Therapies such as PKC inhibitors which attack single pathways may be of benefit • New therapeutic approaches which can target multiple pathways simultaneously may offer the best chance to prevent complications

  29. Thank you

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