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2014 “To wards an HIV Cure ” Symposium, Melbourne

2014 “To wards an HIV Cure ” Symposium, Melbourne . Viral Persistence: Obstacles and Opportunities in Overcoming AIDS Virus Infection. “The Role of Therapeutic Vaccination in HIV Cure Strategies”. J.D. Lifson AIDS and Cancer Virus Program Leidos Biomedical Research, Inc.

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2014 “To wards an HIV Cure ” Symposium, Melbourne

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  1. 2014 “Towards an HIV Cure” Symposium, Melbourne Viral Persistence: Obstacles and Opportunities in Overcoming AIDS Virus Infection “The Role of Therapeutic Vaccination in HIV Cure Strategies” J.D. Lifson AIDS and Cancer Virus Program LeidosBiomedical Research, Inc. Frederick National Laboratory AIDS and Cancer Virus Program

  2. http://www.nytimes.com/2011/11/29/health/ new-hope-of-a-cure-for-hiv.html?pagewanted=all&_r=0 http://www.advocate.com/news/2009/01/24/aids-hero-martin-delaney-dies-california

  3. Definitions Reservoir: Virus that persists despite apparently effective suppressive cART, and is capable of giving rise to recrudescent infection if/when cART is stopped Cure (definitive treatment beyond lifetime cART): Eradication: Elimination through treatment of all virus capable of giving rise to recrudescent infection if/when cART is stopped Functional Cure (sustained off treatment remission): Not complete elimination of reservoir, but reduction of reservoir to levels sufficiently low, with sufficient host control, to limit/abrogate pathogenesis and minimize/eliminate risk of transmission

  4. Challenges for HIV Cure • Residual virus replication (“active reservoir”) • Long lived/self renewing infected cells • Latent reservoirs • Epigenetic and transcriptional mechanisms of latency • Anatomic and cell lineage compartments • Pharmacological or immunological sanctuary sites • Must eliminate or control “last virus” capable of initiating recrudescence

  5. Approaches to HIV Cure: Mechanism Based and Empirical • cART intensification • Transcriptional activators • Epigenetic modulators • Immune modulators • Cytokines • Immune checkpoints • Immune targeting (require viral expression) • mAbs • Adoptive cell therapy (engineered cells; effector, resistance) • Therapeutic vaccination • Combinations

  6. Dr. Lifson will see you now….

  7. Animal (NHP) Models in HIV Cure Research: Strengths, Role, Limitations • Experimental Control and Flexibility • Identity, timing, route, amount of viral inoculum; sequence tagged “synthetic swarm” • Flexibility for sampling: Blood (incl ‘pheresis), tissues • - Longitudinal • - Scheduled euthanasia/necropsy • cART regimen: Compliance, flexibility for initiation, interruption • Flexibility for experimental interventions: Preliminary proof of concept, risk/benefit • Monkeys are not people, HIV is not SIV/SHIV

  8. cART in NHP • Drug Considerations • Activity/potency vs. SIV • Drug delivery: Dosage, Route (“compliance”) • Bioavailability, PK (plasma and tissue levels!) • Toxicity • Sustainability over experimental duration • Drug availability/cost • 2012-14: Regimens able to achieve and sustain suppression of SIVmac239 to < 30 RNA copies/mL

  9. Evaluation of Pharmacologic Interventions (HDACi/SAHA) in cART Suppressed NHP (Merck) • Test SAHA, establish NHP model • cART regimens • In vitro/Ex vivo validation • SIV vs. HIV, macaque cells vs. human cells • Safety • In vivo activity SAHA 45mg/kg/day SAHA 57 mg/kg/day SIVmac239 cART Necropsy 4 wk 3 wk 3wk 3wk 3wk 3wk 5-6 wk 6-7 wk 26-28 wk

  10. Ex Vivo SAHA Treatment Increases Histone Acetylation and Induces SIV Expression from CD4+ T Cells From SIV-Infected Macaques on Suppressive cART

  11. cART + SAHA in NHP • cART treatment for > 1 yr • SAHA safe; cumulative 84 doses • Treatment effects; histone acetylation, SIV transcriptional ratio (vRNA:vDNA) • Results complex;PK/PD; decr. response with repeat dosing • Despite activity, extensive dosing, no viral clearance • HDACi may have role, but alone unlikely to meaningfully impact reservoirs without other interventions • Romidepsin also studied (Gilead); histone acetylation, incr PVL, but not viral clearance • Similarities to emerging clinical data support utility/relevance of NHP models

  12. HIV Cure: Limitations of • “Pharmacological Only” Approaches • Activity (potency, specificity) • PK/PD • Fractional hit rate per dose/cycle • Interpretation/significance of readouts • Fate of “induced” cells • Toxicity/off target effects • Must eliminate/control “last virus”;potential role for immune surveillance, immune clearance • Role for therapeutic vaccination? Cellular vs. Ab

  13. HIV Cure: Therapeutic Vaccination (TVX) Limitations of conventional TVX: • Kinetics: • Transient vaccine Ag • Later responses depend on Ag from infection; responses chase the virus • Specificity: • Limited breadth vs. sequence diversity, viral plasticity • MHC allele dependence • Potential boosting of responses to already escaped epitopes

  14. And now, for something completely different…. http://tvtropes.org/pmwiki/pmwiki.php/Main/SomethingCompletelyDifferent

  15. Exploiting the Evolutionarily Acquired Immune Wisdom of CMV: Predicted Properties of T Cell Responses to CMV-Vectored Vaccines • Extremely high frequency of CD4+ and CD8+ T cell responses • Effector memory biased • Indefinitely persistent • Widely distributed, incl mucosal effector sites, viral portals of entry • Capable of locally containing, aborting infection? • Clearly different from other approaches; even if it doesn’t protect, likely to learn something!

  16. Kinetic Mismatch Barrier for AIDS Vaccines: “Too Little, Too Late” Rh-rCMV Picker, LJ, Hansen, SG, and Lifson, JD, Ann Rev Med, 2011

  17. “Prophylactic” Rh-CMV/SIV Vaccination: Properties and Mucosal Challenge Cumulative Results • No superinfection block • Uniquely broad CD4+(TNF+, IFN-g+, IL-2+, MIP-1b+) and CD8+(TNF+, IFN-g+, MIP-1b+, CD107+) TEM responses • Maintained indefinitely • Widely distributed, incl mucosal effector sites • No NAb responses • Post-acquisition control of infection in > 50% of vaccinated macaques

  18. rRh-CMV Vectored SIV Vaccines: Additional Findings • Unusual breadth of CD4+ and CD8+ T cell responses, but missing responses to immunodominant epitopes • “Protected animals” (i.r., ivag) clearly infected; repeat challenged until transient viremia, immune responses to non-vaccine SIV antigens • SIV specific CD4 cells not lost • Control of infection, not “sterile protection” • Durable control with extended follow up

  19. Zinkernagel-D’Oh-ertyRevisted http://www.nobelprize.org/nobel_prizes/medicine/laureates/1996/

  20. “…when you have eliminated the impossible, whatever remains, however improbable, must be the truth…” S. Holmes, The Sign of the Four

  21. Unusual Properties of CD8+ T Cell Responses to Rh-CMV/SIV Vaccines • Extremely broad CD8 responses; no canonical immunodominant epitopes, indefinitely persistent • 2/3 of CD8 responses restricted by MHC-II, NOT MHC-I • Promiscuous Supertopes:Epitopes presented by multiple MHC-II allomorphs; Multiple peptides presented by individual MHC-II allomorphs • Atypical MHC-I restricted responses presented by minimally polymorphic MHC-I-E, not MHC-I A,B (nef resistant) • RhCMV 68.1 vector dependent alternative antigen priming: • Rh189 (US11) • Rh157.5, Rh157.4, and Rh157.6 (UL128, UL130, and UL131) • Mechanism? Importance for protection? • Vectors provide opportunities for response customization • ;

  22. RhCMVVector-elicited CD8+ T Cell Responses: Epitope Recognition 130 130

  23. Viral control after i.r, i.vag., i.v. challenge • Control of disseminated infection, not just at portal of entry • Progressive decline of infection dependent T cell responses, clearance of virus over time, including from tissue sites • “Functional cure” and apparent eradication

  24. Longitudinal Analysis of Rh-CMV/SIV Mediated Protection After Intravaginal Infection

  25. Longitudinal Analysis of Rh-CMV/SIV Mediated Protection After Intravaginal Infection: Tissue Viral Load SIV RNA SIV DNA

  26. Adoptive Transfer to Naïve Hosts: No Evidence of Residual Infectious Virus

  27. ? http://wildlifeandbirdingdestinations.blogspot.com/2011/05/wildlife-rhesus-macaque.html http://www.nytimes.com/2011/11/29/health/new-hope-of-a-cure-for-hiv.html?pagewanted=all&_r=0

  28. Implications of Apparent Viral Clearance for Therapeutic Vaccination • Can TVX with RhCMV/SIV clear infection in SIVmac239 infected macaques on cART? • Indefinitely persistent immune surveillance, broad, atypical T cell responses • Considerations for evaluation of therapeutic vaccination • Effective, sustainable cART in NHP • Timing of cART initiation • Duration of cART • Vaccine immunogenicity in infected NHP on cART • Virological readouts (Bx vs. Nx) • - qPCR/qRT PCR • - Virus recovery culture • - Adoptive transfer • - cART interruption

  29. Therapeutic rhCMV/SIV Immunization In RM Started on cART in Early Chronic SIV Infection SIVmac239X* cART ATI Rh-CMV/SIV n=12 d 0 d 42 d 240 d 330 d ~ 600 Rh-CMV/Empty n=6 *Del Prete, Keele BF. et al, J Virol. 2014 May 7

  30. Therapeutic rhCMV/SIV Immunization of RM Started on cART in Early Chronic SIV Infection Immunization

  31. Rh-CMV/SIV Vaccination of SIV-Infected Macaques on cART Increases CD4+ and CD8+ T Cell Responses to Vaccine (gag) but Not Non-Vaccine (vif) SIV Antigens RhCMV/SIV vaccinated (n=12) RhCMV/empty vaccinated (n=6)

  32. Timing of cART Initiation Profoundly Influences “Reservoir” Establishment Okoye, et al, submitted

  33. Rebound Competent Reservoir Established Early Okoye, et al, submitted

  34. Therapeutic rhCMV/SIV Immunization of RM Started on cART in Acute SIV Infection SIVmac239X* cART ATI Rh-CMV/SIV n=17 d 0 d 7-10 d 70 d 160 d ~ 550 Rh-CMV/Empty n=17 *Del Prete, Keele BF. et al, J Virol. 2014 May 7

  35. CMV-Vectored AIDS Virus Vaccines: Summary/Future • Unusual immunology; vector dependent alternate priming • Control after infection via i.r., i.vag., i.v. routes • Control infection disseminated to tissues, not just portal of entry • Indefinitely persistent immune surveillance; progressive viral clearance to functional cure, apparent eradication • Extremely broad epitope coverage; epitopes not recognized in natural infection, including promiscuous supertopes;advantages for both prophylactic and therapeutic vaccination • Timing of cART initiation • Future plans (addtl NHP studies, clinical development): • -Prophylactic vaccination • - Therapeutic vaccination, with addtlimmuno- or • pharmacologic interventions to enhance/accelerate • viral clearance

  36. Viral Persistence in TFH in Follicles: A Potential Obstacle to Complete Viral Clearance Fukazawa, et al, submitted

  37. COLLABORATORS ACVP/LBRI/FNL/NCI VGTI/OHSU/ONPRC Mike Piatak, Jr. Jake Estes Brandon Keele Greg Del Prete Randy Fast Kelli Oswald Becca Shoemaker Yuan LI Doug Schneider Vicky Coalter Adam Wiles Rodney Wiles Brandi Freemire William Bosche Brian Berkemeier Carolyn Reid Laura Newman Leslie Lipkey Klaus Fruh Jonah Sacha PatriziaCaposio Jay Nelson Emily Marshall Daniel Malouli Jennie Hines Dan Streblow Michael Axthelm Alfred Legasse Ben Burwitz Shannon Planer Tonya Swanson John Turner Michael Jarvis ChristophKahl Daria Hazuda Chris Tan John Wai Rosa Sanchez Romas Geleziunas Joe Hesselgesser Jillian Hattersley Bei Li DMSI/NCI-F Greg Alvord Octavio Quinones Contract HHSN261200800001E RO1 AI060392; P01 AI094417; R01 AI095113; R01 DE021291 Louis Picker Scott Hansen Afam Okoye Abigail Ventura Roxanne Gilbride Colette Hughes Julia Ford Matthew Lewis Awbrey Gilliam George Xu Andy Sylwester Haesun Park Shoko Hagen Yoshinori Fukazawa Richard Lum LASP/LBRI/FNL/NCI Jeremy Smedley Rhonda Macallister Mercy Gathuka Solomon Wangari

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