Download Future directions in HIV basic science research

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Human cytomegalovirus wikipedia , lookup

HIV/AIDS wikipedia , lookup

Hepatitis B wikipedia , lookup

Epidemiology of HIV/AIDS wikipedia , lookup

Diagnosis of HIV/AIDS wikipedia , lookup

Herpes simplex virus wikipedia , lookup

Microbicides for sexually transmitted diseases wikipedia , lookup

HIV wikipedia , lookup

Transcript
Future directions in HIV basic
science research
The hunt for a cure
Future Directions
•
•
•
•
•
A new vaccine approach.
Targeting and purging the latent reservoirs.
Targeting and removing integrated virus.
Stem cell based therapies.
Targeting and controlling immune activation.
A “new” vaccine approach- Use
another virus to “trick” the immune
response to SIV
• Rhesus Cytomegalovirus is a monkey
herpesvirus.
• They replaced genes in Rhesus
Cytomegalovirus with those of SIV.
Annual Reviews
Less restricted. Rhesus Cytomegalovirus that expresses SIV genes (strain 68-1 RhCMV)
expands the CD8+ T cell response to SIV.
N Goonetilleke, and A J McMichael Science 2013;340:937938
Published by AAAS
A new vaccine approach
• They found that vaccination with Rhesus
Cytomegalovirus containing SIV allowed
protection from SIV challenge in monkeys
(Rhesus Macaques)
• The immune responses in these animals were
not the same as the responses in animals
exposed to SIV without the vaccine = better
protection
Broadly Neutralizing Antibodies
and Viral Inducers
• Aim: Induce the virus out of latency and kill
the infected cell
Broadly Neutralizing Antibodies and Viral Inducers Decrease Rebound from HIV-1
Latent Reservoirs in Humanized Mice
Ariel Halper-Stromberg, Ching-Lan Lu, Florian Klein, Joshua A. Horwitz, Stylianos Bournazos, Lilian Nogueira, Thomas R. Eisenreich,
Cassie Liu, Anna Gazumyan, Uwe Schaefer, Rebecca C. Furze, Michael S. Seaman, Rab Prinjha, Alexander Tarakhovsky, Jeffrey V.
Ravetch, Michel C. Nussenzweig
Cell
DOI: 10.1016/j.cell.2014.07.043
Treating with a combination of HIV inducers of latently infected cells during
ART reduced the viral reservoir.
Cell DOI: (10.1016/j.cell.2014.07.043)
Copyright © 2014 Elsevier Inc. Terms and Conditions
Individuals who were treated in the chronic phase (CP) of HIV infection have greater levels of
CTL escape variants to latent virus than those in the acute phase (AP) of infection
 HIV rapidly evolves around the CTL response.
 It will be important to enhance the CTL response to clear the virus from the body.
Targeting Integrated Virus
HIV Lifecycle
Structures of cleavage enzymes.
Schiffer J T et al. J. Virol. 2012;86:8920-8936
Targeted gene knockout by DNA-editing enzymes.
Schiffer J T et al. J. Virol. 2012;86:8920-8936
Integrated Virus Targeting
• Highly specific, efficient way of getting
integrated virus out of cell.
• Problems with delivery to the cell.
• Highly promising
Stem Cell Based Therapies
• Most include gene therapy to modify the
hosts genetic makeup to:
– Make cells that are resistant to HIV infection
And/or
– Make cells that can target and kill HIV infected
cells.
http://www.nytimes.com/2011/11/29/health/new-hope-of-a-cure-for-hiv.html?pagewanted=all
Stem cell based Anti-HIV Gene
Therapy
Containing
at least 1
anti-HIV
gene
Kitchen SG et al. Stem cell-based anti-HIV gene therapy. Virology. 2011
Multiple anti-HIV gene therapy
approach
Selected anti-HIV genes
1. Potent HIV inhibitors at early
stage of viral life cycle
2. Distinct anti-HIV mechanisms
Goals
1. Inhibit multiple HIVs
• CCR5 tropic HIVs
• CXCR4 tropic HIVs
• Multi-drug resistant HIVs
2. Prevent emergence of resistant
HIV mutants
CCR5-siRNA
Hu-TRIMcyp
C46 entry
inhibitor
HIV TCR
Engineering Immunity
Targeting immune responses could increase rejection of
Infectious agents (chronic viruses like HIV) or tumors in certain
individuals or disease states
Can this type of approach be done in humans?
Can we enhance immune capabilities in humans?
Approaches include using stem cells or modifying peripheral
(adult) cells to produce antibodies or produce T cells that target
HIV infected cells, to enhance HIV immune responses.
“Engineered Immunity”
Stem cell based approaches
Would allow direct genetic modification of progenitor
(“baby”) cells in the body
Would allow prolonged self-renewal of modified cells
that would have long life in the body
Cells would undergo normal development and be
recognized as part of the body
“Genetic Vaccination” to HIV
Stem cell
TCR 
TCR 
TCR 
TCR 
TCR 
TCR 
TCR 
TCR 
Viral Vectors
Containing Cloned
TCRs
T cell
T cell
Virus
Infected
cells
T cell
T cell
T cell
GMP Level Closed System Gene Transduction and Cell Processing
Apheresis
Final Infusion Product
Cytomate
Gene Transfer Product
Isolex
Isolex
Culture
Targeting Immune Activation and HIV
• HIV activates the immune response during
infection
• HIV replicates in an active immune response
• We can target the virus (ARV), we need to also
target the immune response to make it better
able to clear HIV
• One way is to target specific molecules to
lower levels of immune activation to decrease
HIV levels.
HIV infection in the gut (Intestines, Colon) causes
problems with the immune response
Immune activation and inflammation in HIV‐1 infection: causes and consequences
There is a lot going on in HIV infection.
Like antiretroviral therapy and the HIV
lifecycle, if we can target multiple
events we may be able to allow
the immune response to clear HIV.
The Journal of Pathology
Volume 214, Issue 2, pages 231-241, 27 DEC 2007 DOI: 10.1002/path.2276
http://onlinelibrary.wiley.com/doi/10.1002/path.2276/full#fig1