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Lab of Immunoregulation. Ira Berkower, M.D., Ph.D., Lab Chief Carol D. Weiss, M.D., Ph.D., Section of Viral Envelope Glycoproteins. VRBPAC presentation, December 15, 2009. LAIR Mission. We provide scientific expertise in the review of viral vaccines for safety, efficacy and potency.
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Lab of Immunoregulation Ira Berkower, M.D., Ph.D., Lab Chief Carol D. Weiss, M.D., Ph.D., Section of Viral Envelope Glycoproteins VRBPAC presentation, December 15, 2009
LAIR Mission • We provide scientific expertise in the review of viral vaccines for safety, efficacy and potency. • Regulatory responsibilities: Evaluate new vaccines under IND and serve on licensing committees Write regulatory guidance documents Provide clinical oversight of HIV vaccine trials • Vaccines include: - HIV: inactivated virions, live attenuated viral vectors, and viral replicons DNA vaccines, and recombinant proteins - Influenza: inactivated virions - Hepatitis B: recombinant virus-like particles • Research areas: - Virus-like particles for presentation of HIV envelope proteins - Live attenuated viral vectors - Virus entry pathways and antibody neutralization
HIV research areas:I. Virus-Like Particles expressing gp120 HBsAg env 125/205 503 226/42 NH2 Berkower et. al. Virol 321:75 (2004) VLP expressing gp120
20-21 loop b15-a 3 loop The CD4bs is a target of broadly reactive neutralizing antibodies Open form gp120 Closedform/open form Berkower, et al Virol 377:330 (2008)
Progress with gp120 VLPs • By deleting loop C, we exposed the CD4 binding site and improved antibody binding by over 100- fold. • This is an important target of broadly reactive neutralizing antibodies. • Results were published in Virology. - confirmed by the Vaccine Center at NIH and used in their vaccines. - Loop C function has been tentatively identified as binding the second exposed loop of the CCR5 coreceptor during viral entry. • Recently, we have identified a hinge region where the inner/outer domains meet: by modifying the hinge, we may control the open/closed conformation of gp120 and further improve antibody binding.
MPER HBsAg 2F54E10 TM II. Virus-Like Particles expressing the membrane proximal region (MPER) of gp41: an important target of neutralizing antibodies Phogat et al Virol 373:72 (2008)
Progress with gp41 VLPs • HBsAg-MPER can assemble particles despite replacing one or two membrane spanning domains of HBsAg with a foreign TM domain of gp41. • These VLPs display MPER in its natural milieu on a lipid surface, anchored by its own TM domain. • They show enhanced antibody binding by monoclonals 2F5 and 4E10, and they induce broadly cross reactive anti-MPER antibodies. • We are currently using milder purification conditions to preserve MPER function and to elicit neutralizing antibodies.
III. Live attenuated viral vector • What if these VLP antigens are still not potent enough? • A live attenuated viral vector could present HIV antigens in the context of an acute infection. This could also act in synergy with VLPs expressing the same antigens. As part of a prime and boost strategy, they could work together to elicit a much greater antibody response than either one separately • Ideal vector: • grow well enough to immunize • safe enough to use without further attenuation • host range would allow SIV challenge.
C E2 E1 P150 P90 zGFP Rubella can express GFP or Influenza HA epitopes A. Spadaccini et. al Vaccine (2009) in press Living Vero cells Fixed Vero cells
Progress with Rubella Vector • Achieved stable expression (>12 passages) of a 25KD protein in a live, replicating vector. - Large enough and stable enough for vaccine applications. - Suitable for monkey immunization and challenge studies • Results were published in Vaccine • Started using live attenuated vaccine strain of rubella RA27/3: it grows like wild type rubella. • Established a collaboration to express MPER and Gag antigens and to test growth and immunogenicity in vivo
Section of Viral Envelope Glycoproteins Carol D. Weiss, M.D., Ph.D., Senior Scientist Wei Wang, Ph.D., Staff Fellow For conversion to staff scientist Virus entry and antibody neutralization
peptide fusion inhibitors (?antibodies) CoR CoR CD4 CD4 HR1 antibodies HR2 X X X Background: HIV Env-mediated entry (pH trigger for HA) gp120 fusion gp41 native Env fusion intermediate six-helix bundle HIV projects -Elucidate Env entry mechanism with peptide fusion inhibitors -Evaluate Env intermediates for antigenicity, immunogenicity, and neutralization You might guess that resistance to HR1 occurs in HR2, or HR1.
HIV research highlights • Two pathways of resistance for HR1 peptide fusion inhibitors that target fusion-intermediate conformations of Env • CD4bs mutations cluster with HR1, V3 mutations cluster with HR2, suggesting cross talk between these regions • Mutations confer cross-resistance to HR2 inhibitors (T20), but distinct from resistance that emerges to T20 • Resistance mechanism involves global changes in Env function that enhance receptor use. - Likely represents increase entry kinetics, decrease half-life of fusion-intermediate target of peptides and explains cross-resistance to T20 • Env antigens that mimic fusion-intermediates may be useful targets for vaccine antigens. • Can enhance immunogenicity of gp41 regions containing broadly neutralizing determinants (2F5, 4E10)
Influenza project Established an influenza neutralization assay using pseudotypes with HA on the outside and retroviral capsid and a reporter gene on the inside to • Evaluate protective antibody titers and correlates of protection • Assess antigenic relatedness among influenza variants • Investigate effects of specific epitopes on infectivity & antigenicity
Influenza research highlights • Established methods for creating functional retroviral pseudotypes bearing HA from H1, H3, and H5 subtypes • Overcame technical hurdles to make functional pseudotypes for H1N1 and H3N2 • Have shown: - HA-pseudotype neutralization titers correlate well with microneutralization titers • Cross-clade immunity among H5N1 • In sum: HA pseudotypes provide a safe and versatile tool for evaluation neutralizing antibodies to seasonal and pandemic influenza • Being applied to 2009 H1N1
Conclusions • Our research supports CBER’s mission by: Advancing the field of HIV and influenza vaccines, maintaining our expertise, and enabling us to provide high quality guidance for sponsors of new vaccines. • There is synergybetween VLPs and live vectors: - The same antigenic determinant (gp120 or gp41) could be primed on VLPs and boosted on a live viral vector. • There are also similarities between HIV and influenza entry pathways: - For HIV, understanding the fusion pathway leads to fusion intermediates that can serve as vaccine targets, and - For Influenza, the pseudotype assay allows us to evaluate neutralizing antibodies and demonstrate relatedness or differences among the seasonal and pandemic influenza strains: H1, H3, H5 and H1N1.