Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P....
-
Upload
anne-jenkins -
Category
Documents
-
view
220 -
download
0
Transcript of Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P....
![Page 1: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/1.jpg)
Gene Transfer and Immunogenicity
BranchSite Visit March 2,
2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein, PhD, Senior Investigator Nancy S. Markovitz PhD, Senior Staff Fellow Carolyn A. Wilson, PhD, Senior Investigator
Takele Argaw, DVM, Staff Fellow
![Page 2: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/2.jpg)
22
Problems in Development of Cell and Gene Therapy
Products Lack of preclinical models to predict performance of gene and cell therapy products in vivo
Potential for transmission of infectious agents to the patient and beyond Products often intended for lengthy or
permanent presence in the recipient Complicated manufacture and structure of
products Challenging product characterization and
testing
![Page 3: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/3.jpg)
33
The Challenges for GTIB Product safety is affected by virus-
containing products Unintended replicating viruses in viral vectors,
xenotransplantation, and other products Public health concern of spread beyond the patient
Viral vectors carry inherent risks (e.g., toxicity, tumorigenicity, off-target effects)
Immunogenicity impacts safety and efficacy Immune responses to viruses and transgene
products, xenotransplantation and cell therapy products
Immune activity of certain immunotherapy products
![Page 4: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/4.jpg)
GTIB Addresses Challenges Through Critical Path
Research Multiple viral systems, e.g., adenovirus,
filovirus, influenza virus, herpesvirus, retrovirus
Flexible systems to address immunogenicity and function of many OCTGT products
Predictability comes from understanding: Fate and effect in vivo Role of structure and function in safety Interaction with immune system
![Page 5: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/5.jpg)
55
Summary of Individual Programs Presented at the March 2 Site Visit
andRegulatory Impact
![Page 6: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/6.jpg)
66
Immunobiology of Cellular Therapy and
Xenotransplantation Products: Immunogenicity Issues (Bloom)
•Immunity includes NK cells and T cells, and Ab•Regulatory T cells inhibit CD4+ T cell response
Autologous cellular therapy – cells themselves may be intended to be immunologically active, e.g., NK or T cell immunotherapy
Primarily T cell, and sometimes NK cell immunity (e.g., hES cells & progeny), Ab
xenotransplantation
allotransplantation
autologous
![Page 7: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/7.jpg)
77
Expanded baboon CD4+CD25+ T reg cells strongly suppress proliferation and cytokine
production of baboon CD4+CD25- effector cells
To understand role of Tregs in
xenotransplantation in vivo: A preclinical model
will be important
![Page 8: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/8.jpg)
Impact on Cell Therapy and Xenotransplantation
Products NK cells must be considered as immune
mediators for rejection of both xenogeneic transplants and certain allogeneic cell therapy products
Efficacy may be affected by Type(s) of immune response(s) of recipient Microenvironment in patient
Studies of patient immune responses in vitro may predict immunity in vivo Could serve as biomarkers of clinical benefit
![Page 9: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/9.jpg)
99
Safety and biodistribution of adenovirus vectors (Byrnes)
>80 active INDs in US for adenovirus vectors>80 active INDs in US for adenovirus vectors Poor pharmacokinetics after systemic injectionPoor pharmacokinetics after systemic injection
Rapid clearance of Ad by the liverRapid clearance of Ad by the liver Inefficient therapy, toxicityInefficient therapy, toxicity
Kupffercells
Control liver After i.v. injection of Ad vector
Ad vectors are taken up by Kupffer cells, which then die
![Page 10: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/10.jpg)
1010
How do Kupffer cells recognize How do Kupffer cells recognize adenovirus so well?adenovirus so well?
New assay for New assay for quantitating KC quantitating KC uptake of Aduptake of Ad
Scavenger receptors Scavenger receptors are important for KC are important for KC uptake of Aduptake of Ad
![Page 11: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/11.jpg)
1111
Critical Path issues in adenoviral gene therapy
Kupffer cells prevent Ad gene therapy Kupffer cells prevent Ad gene therapy from reaching its full potentialfrom reaching its full potential
Goals:Goals: Understand how Kupffer cells recognize Understand how Kupffer cells recognize
adenovirusadenovirus Rationally develop strategies to block Rationally develop strategies to block
Kupffer cells in order to enhance gene Kupffer cells in order to enhance gene delivery and decrease vector toxicitydelivery and decrease vector toxicity
![Page 12: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/12.jpg)
1212
Influenza, the public health problem (Epstein)
High mortality from seasonal outbreaks, concern about pandemic (subtype new to humans). Vaccine supply delayed or inadequate.
Work in this program: New vaccine technologies can cross-protect broadly against divergent influenza A subtypes. Historical data suggest possible cross-protection in humans during the pandemic of 1957.
Maintaining the cold chain Producing vaccines
![Page 13: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/13.jpg)
1313Morbidity also reduced (body weight)
0
1
2
3
4
5
6
7
Lung - Day 5
Log1
0 E
ID50
/ml
A/NP
A/M2
B/NP* *
*P = 0.004
ANOVA
Challenge with A/Thailand/SP83/0417 days after boost
M2 can protect against a lethal H5N1
challengeDNA+rAd
![Page 14: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/14.jpg)
1414
Implications for public health
and product regulation Addresses DHHS and center-wide
priorities on: Control of epidemic and pandemic influenza. Counter-bioterrorism: control of emerging
infectious disease without having to know which strain is coming
Safety and efficacy impact in gene therapy: antibody and T cell responses to viral vectors can block efficacy, cause immunopathology.
![Page 15: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/15.jpg)
1515
Identity and Safety Studies of Herpes Simplex Viruses and
Vectors(Markovitz)
Identity/StructureReplicating viruses used in cancer therapy studies contain unreported mutations.
SafetyIn contrast to what is frequently reported, HSVs similar to those in clinical trials do replicate in normal brain cells in mice.
![Page 16: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/16.jpg)
1616
• R3617 is the parent strain of virus G207, used in clinical trials.
•Sequence analysis proved that the mobility shift was due to a single base substitution
•Resulted in the truncation of the UL3 protein.
Unexpected Mutations in Herpes Simplex Virus for
Clinical Use
MW HSV-1(F
)
45
31
R3617
1 2
UL3C]UL3 WT [
Dambach et al. (2006) Molecular Therapy 13(5): 892-899.
![Page 17: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/17.jpg)
1717
Filoviridae Ebolavirus
Marburg virus
ZaireIvory CoastSudanReston
High fatality rate; rapid disease High fatality rate; rapid disease progression.progression.
No proven cure or vaccineNo proven cure or vaccine Infection suppresses both the innate Infection suppresses both the innate
and adaptive immune responsesand adaptive immune responses Exacerbates pathogenic outcomeExacerbates pathogenic outcome Prevents development of protective Prevents development of protective
immune responseimmune responseDHHS high Priority Bioterrorism Agents
(Wilson)
![Page 18: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/18.jpg)
1818
Zaire
Ivory Coast
Sudan
VSV-GVSV-G
Anti-F88 MAbs Neutralize Three Ebolavirus Species*
*Shown here with retroviral vector pseudotypes, now extended to WT Ebolavirus
![Page 19: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/19.jpg)
1919
Impact on Counter-Bioterrorism:Availability of Antibodies for Passive
Transfer
Targeting conserved epitopes: Block Entry → Reduce virus burden Critical for Entry → Avoid potential
for immune escape mutants Broad protection to Filovirus sp.Complements vaccine strategy: Provides immediate protection in
the event of an outbreak (natural or BT)
![Page 20: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/20.jpg)
2020
National Toxicology Program (NTP):
Safety assessment of retroviral vectors for risk of tumorigenicity
Determine the sensitivity of a preclinical model for detecting retroviral vector-mediated insertional tumorigenesis
Impact of vector backbone, dose, and enhancer deletion on tumor frequency Will assess retroviral vectors representing
three different retroviral genera: Gammaretrovirus (MLV) Lentivirus (HIV) Spumavirus (HFV)
![Page 21: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/21.jpg)
2121
Xenotransplantation: Identification of Porcine Endogenous Retrovirus
Determinants Critical for Human Cell Tropism(Argaw)
![Page 22: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/22.jpg)
2222
Regulatory Impact of OCTGT Retrovirus Research
Addressing Risks Associated with Retroviral Vectors: Identification of model to assess insertional
mutagenesis from vector Using model to assess relative risks, based on
different vector types, dose, and structure Porcine Xenotransplantation Products
Identification of residues required for transmission of porcine endogenous retrovirus may allow development of means to block infection and reduce risk of transmission
![Page 23: Gene Transfer and Immunogenicity Branch Site Visit March 2, 2007 Eda T. Bloom, PhD, Chief Andrew P. Byrnes, PhD, Senior Staff Fellow Suzanne L. Epstein,](https://reader038.fdocuments.net/reader038/viewer/2022103023/56649e5e5503460f94b57a73/html5/thumbnails/23.jpg)
Summary - GTIB Research: Addressing Regulatory
Challenges Gene therapy vector safetyGene therapy vector safety Xenotransplantation safetyXenotransplantation safety Cellular therapy and Cellular therapy and
xenotransplantation product xenotransplantation product efficacyefficacy
Center-wide and Departmental Center-wide and Departmental prioritiespriorities Pandemic influenzaPandemic influenza Counter terrorismCounter terrorism