Evaluation of Human Thymic Function during Health and HIV-1 Infection

1. Evaluation of Human Thymic Function during Health and HIV-1 Infection Ping Ye and Denise Kirschner DIMACS Workshop 9/23/2001

2. Outline • Thymic function in healthy people • Thymopoiesis • Markers to represent recent thymic emigrants (RTE) • Thymopoiesis model • TREC model • Thymic function during pediatric HIV-1 infection • HIV-1 infection • Clinical and experimental studies • Thymic infection model • Evaluation of TREC

3. Haynes BF. Clin Immunol. 92(1):3-5,1999 The Thymus Janeway CA et al. Immunobiology 5th ed. 2001

4. Thymopoiesis Berkowitz RD et al. J Immunol. 161(7):3702-10, 1998

5. Recent Thymic Emigrants (RTE) • Lack of phenotypic markers for human RTE • Human RTE generally refer to T cells that have undergone only a few cellular divisions after leaving the thymus • T cell receptor excision circles (TREC) have recently been used as a measure of the number of RTE

6. Haynes BF et al. Annu Rev Immunol. 18: 529-60, 2000 T Cell Receptor Excision Circles (TREC) Pieces of DNA fragments that are generated during TCR gene rearrangement in the thymus and then exported from the thymus to periphery within T cells episomally Janeway CA et al. Immunobiology 5th ed. 2001

7. TREC as A Measure of RTE

8. Parameters Estimating RTE • TREC concentration • Is affected by both RTE and peripheral T cell proliferation and death • Naïve T cells (CD45RA+, CD62L, CD95+) • May have long lifespan • May proliferate in an antigen-independent manner • May rapidly convert to memory cells • May be converted from memory cells • Thymic volume • Assuming thymic volume is proportional to RTE levels

9. Two Questions to Address 1st Can TREC concentration be properly used as measure of RTE? 2ndWhether thymic infection with different HIV-1 strains contribute to differences in disease progression?

10. Thymopoiesis Model Cell Source THYMUS TES(t) TN ITTP DP SP4 SP8 BLOOD/ LYMPHOID TISSUES CD4+ RTE CD8+ RTE

11. Simulation Results for Thymopoiesis Model Thymocytes RTE/day

12. Model Simulation Values Compared with Experimental Data

13. SP4 SP8 TREC Model THYMUS CD4+ RTE CD8+ RTE CD4+ T cell CD8+ T cell TREC TREC BLOOD/ LYMPHOID TISSUES

14. Simulation Results for TREC Model Douek DC et al. Nature. 369(6712):690-5, 1998. Zhang L et al. J. Exp. Med. 187(11): 1767-78, 1998

15. Four Events Affecting TREC Concentration THYMUS SP4 SP8 1 CD4+ RTE CD8+ RTE 3 2 CD4+ T cell CD8+ T cell 4 TREC TREC BLOOD/ LYMPHOID TISSUES 1 Thymic output 2 T cell division 3 T cell death 4 TREC degradation TREC concentration is affected by

16. TREC Can Be Equally Affected by Thymic Output and T Cell Division (at Any Age) #

17. sjTREC cjTREC TREC Concentration during Aging Healthy Volunteers Age (years) Douek DC et al. Nature. 396(6712): 690-5, 1998

18. Thymic Involution Induce TREC Decline (Over Entire Lifespan) TREC concentration is a good marker for RTE in healthy people

19. SummaryThymic Function in Healthy people • Our model quantifies the number of RTE and TREC concentration over an 80-year lifespan • TREC concentration can be equally affected by thymic output and T cell division at any age • Thymic involution induces TREC concentration decline over the entire lifespan • TREC concentration is a good marker for both CD4+ and CD8+ RTE in healthy people

20. Outline • Thymic function in healthy people • Thymopoiesis • Markers to represent recent thymic emigrants (RTE) • Thymopoiesis model • TREC model • Thymic function during pediatric HIV-1 infection • HIV-1 infection • Clinical and experimental studies • Thymic infection model • Evaluation of TREC

21. HIV-1 Structure • Associated with AIDS • Retrovirus family • Two identical ss RNA • Enveloped virus • Antigenic variation • Infects CD4+ cells • Entry requires CD4 and coreceptor

22. HIV-1 Entry

23. Classification of HIV-1 Strains • R5 strain • Uses CCR5 as coreceptor • Replicates slowly and is minimally cytopathic • Is primarily transmitted • Is prevalent in the early stage of disease • X4 strain • Uses CXCR4 as coreceptor • Replicates fast and is highly cytopathic • Is rarely transmitted • Appears in approximately 50% of patients in the late stage of disease • R5X4 strain • Uses either CCR5 or CXCR4 as coreceptor • Has similar properties as the X4 strain

24. HIV-1 Disease Progression Hypotheses for the decline of CD4+ T cells in the blood • Changes in cell migration patterns • Changes in cell life-spans • Changes in cell production by the thymus

25. Clinical Studies of Thymic Infection with HIV-1 • TREC levels in CD4+ and CD8+ T cells decline • Naïve CD4+ and CD8+ T cell numbers decline • Thymic volume decreases • The thymus undergoes morphological changes • “Thymic dysfunction” (TD+) is described in a subset of vertically-infected infants

26. “Thymic dysfunction” (TD+) • Two distinct modes of pediatric HIV-1 disease progression • Normal progressors10 years to AIDS(85%) • Fast progressors 2-3 years to AIDS (15%) • lower CD4+ and CD8+ counts (DiGeorge Syndrome)

27. Experimental Studies of Thymic Infection with HIV-1 • Coreceptors • CCR5 Expressed in low levels on DP, SP4, SP8 cells • CXCR4 Expressed in high levels on ITTP, DP cells, low levels on SP4 and SP8 cells • HIV-1 strains • R5 strain Infects DP and SP4 cells Minimally cytopathic • X4 strain Infects ITTP, DP and SP4 cells Highly cytopathic • Thymocyte maturation stages • SP4,SP8 Support active viral replication • ITTP,DP Support less viral replication

28. Two Questions to Address 1stCan TREC concentration be properly used as measure of RTE? 2nd Whether thymic infection with different HIV-1 strains contribute to differences in disease progression?

29. R5 R5 X4 X4 Thymic Model With HIV-1 Infection Cell Source THYMUS TES(t) TN X4 ITTPX ITTP DPX DPR DP X4 R5 SP4R SP4X SP4 SP8R SP8X SP8 R5 X4 CD4+ RTE CD8+ RTE BLOOD/LYMPHOID TISSUES

30. Virtual Pediatric Thymic Infection

31. Simulations of CD4+ RTE Predict Bimodal Pattern of Blood CD4+ T Cell Counts

32. Simulation Values at Year Two of Virtual Infection Compared with Experimental Data

33. Bifurcation ParametersImplications for Treatment • Viral influx from blood into the thymus • Virulence of strains (viral infection rate and production rate) • HIV-1 induced death of uninfected thymocytes • Progenitor cells from bone marrow • Carrying capacity of the thymus

34. sjTREC TREC Concentration during HIV-1 Infection HIV-1 Infected Subjects Age Age (years) Douek DC et al. Nature. 396(6712): 690-5, 1998

35. Two Questions to Address 1st Can TREC concentration be properly used as measure of RTE? 2ndWhether thymic infection with different HIV-1 strains contribute to differences in disease progression?

36. T Cell Kinetics during HIV-1 Infection We include these effects in the model to represent HIV-1 infection

37. T Cell Counts and TREC Concentrations in HIV-1 Infected Subjects (Age 30) T cells TREC Margolick JB et al. J Acquir Immune Defic Syndr. 6(2): 153-61, 1993 Zhang L et al. J. Exp. Med. 187(11): 1767-78, 1998

38. Model Prediction for Thymic Output during HIV-1 Infection TREC concentration is a good marker for CD4+ RTE TREC concentration is NOT a good marker for CD8+ RTE

39. SummaryThymic Function during Pediatric HIV-1 Infection • Infection with R5 and X4 strains induces different degrees of thymic dysfunction, which is related to CD4+ T cell counts and disease progression as seen in pediatric patients • Thymic infection in pediatric patients is more severe than in adult patients, likely due to higher viral loads and a more active thymus • Suppressing viral load in blood, high drug efficacy within the thymus, and improving inherent thymic function are necessary for reconstitution of RTE levels • Protease inhibitors have high levels of efficacy directly suppressing viral replication within the thymus, while reverse transcriptase inhibitors have low efficacy • TREC concentration is a reliable marker for CD4+ RTE, but not for CD8+ RTE in HIV-1 infected subjects

40. Conclusions • Peripheral T cell turnover should be examined together with TREC concentration as a measure of RTE • Infection with different HIV-1 strains induces different degrees of thymic dysfunction, contributing to CD4+ T cell depletion and disease progression • With adequate suppression of viral replication within both the blood and the thymus during HAART, thymic function recovery can reconstitute immune cell numbers

41. Publications • Ping Ye and Denise Kirschner (2002). Reevaluation of T cell receptor excision circles as a measure of human recent thymic emigrants. Journal of Immunology, 168(10), 4968-4979. • Ping Ye, Athena Kourtis, and Denise Kirschner (2002). The effects of different HIV-1 strains on human thymic function. AIDS Research and Human Retroviruses, 18(17) (In press). • Ping Ye, Athena Kourtis, and Denise Kirschner . Reconstitution of thymic function in HIV-1 patients treated with highly active anti-retroviral therapy (submitted).

42. Acknowledgments • Dr. Denise Kirschner • Collaborator: Dr. Athena Kourtis • Dr. Ramit Mehr • Kirschner lab members • Funding • NIH and Whitaker Foundation to DEK • Rackham Graduate School and Elizabeth Glaser Pediatric AIDS Foundation to PY

43. Clinical Studies of Thymic Function during HAART • TREC levels recover • Naïve CD4+ and CD8+ T cell numbers increase • Thymic volume increases • Children with “thymic dysfunction” response well to HAART

44. R5 X4 R5 X4 Model of Thymic Function Reconstitution during HAART Cell Source • Reduce viral influx into the thymus • Decrease viral infection and production (if thymic drug efficacy > 0%) • Decrease HIV-1 induced death of uninfected thymocytes • Increase progenitor cells from bone marrow • Increase carrying capacity of the thymus TN THYMUS TES(t) X4 ITTP ITTPX DPR DPX DP R5 X4 SP8R SP4R SP4 SP4X SP8X SP8 R5 X4 CD4+ RTE CD8+ RTE BLOOD/LYMPHOID TISSUES

45. Simulations of pediatric thymocyte dynamics during HAART

46. Simulations of CD4+ RTE Predict HAART Agent Thymic Efficacy RTI HAART