Host Genetics and Viral Diversity: Report from a Global HIV Vaccine Enterprise Working Group

The Global HIV Vaccine Enterprise convened a workshop in September 2009 to discuss human and viral genetic variation and its impact on future directions for HIV vaccine research and development. The formidable challenges presented by virus and host genetic variability are interrelated and complicate vaccine development. HIV vaccine researchers need to develop innovative approaches that will facilitate addressing these questions in novel ways

Novel approaches, including systems biology, to HIV vaccine research and development: Report from a Global HIV Vaccine Enterprise Working Group

The Global HIV Vaccine Enterprise convened a two-day workshop on August 10-11 2009, at the Fred Hutchison Cancer Research Center offices in Seattle, WA, to discuss the application of novel approaches,including systems biology, to HIV vaccine research and development. The goals of this Working Group were to identify key scientific issues and opportunities that have emerged since the Enterprise Scientific Strategic Plan1 was published in 2005, and to make recommendations to Enterprise stakeholders

Bridging the Gaps between Fundamental, Preclinical and Clinical Research: Report from a Global HIV Vaccine Enterprise Working Group

The Global HIV Vaccine Enterprise (the Enterprise) convened a two-day workshop on 17-18 September 2009, at the Enterprise offices in New York; to discuss approaches to bridging the gaps between fundamental,preclinical and clinical HIV vaccine research. The topic of this Working Group originated from discussions of the Enterprise Science Committee,which proposed that more effective collaboration between these three areas of HIV vaccine research is needed in order to accelerate the pace of scientific progress in the field. Because the meeting took place before the release of the RV144 trial results held in Thailand, the conclusions reached during the meeting were further discussed during consultations at scientific conferences and at a joint meeting of the Science Committee and Chairs of all five Working Groups. Thus, this Report reflects both the original discussions of the Working Group and subsequent discussions that took place after the release of the RV144 trial results

Novel approaches, including systems biology, to HIV vaccine research and development: Report from a Global HIV Vaccine Enterprise Working Group

The Global HIV Vaccine Enterprise convened a two-day workshop on August 10-11 2009, at the Fred Hutchison Cancer Research Center offices in Seattle, WA, to discuss the application of novel approaches,including systems biology, to HIV vaccine research and development. The goals of this Working Group were to identify key scientific issues and opportunities that have emerged since the Enterprise Scientific Strategic Plan1 was published in 2005, and to make recommendations to Enterprise stakeholders

Immunogens and Antigen Processing: Report from a Global HIV Vaccine Enterprise Working Group

The Global HIV Vaccine Enterprise convened a meeting of a Working Group in July 2009 to discuss recent progress in rational design of the components of an HIV vaccine, such as inserts, vectors and adjuvants,and in understanding antigen processing and presentation to T and B cells. This Report summarizes the key points of that discussion, and subsequent discussions with the Chairs of the other Enterprise Working Groups, the Enterprise Science Committee, the Enterprise Council and the broader scientific community during open sessions at scientific conferences

Proviral HIV-genome-wide and pol-gene specific Zinc Finger Nucleases: Usability for targeted HIV gene therapy

<p>Abstract</p> <p>Background</p> <p>Infection with HIV, which culminates in the establishment of a latent proviral reservoir, presents formidable challenges for ultimate cure. Building on the hypothesis that <it>ex-vivo </it>or even <it>in-vivo </it>abolition <it>or </it>disruption of HIV-gene/genome-action by target mutagenesis or excision can irreversibly abrogate HIV's innate fitness to replicate and survive, we previously identified the isoschizomeric bacteria restriction enzymes (REases) AcsI and ApoI as potent cleavers of the HIV-pol gene (11 and 9 times in HIV-1 and 2, respectively). However, both enzymes, along with others found to cleave across the entire HIV-1 genome, slice (SX) at palindromic sequences that are prevalent within the human genome and thereby pose the risk of host genome toxicity. A long-term goal in the field of R-M enzymatic therapeutics has thus been to generate synthetic restriction endonucleases with longer recognition sites limited in specificity to HIV. We aimed (i) to assemble and construct zinc finger <it>arrays </it>and <it>nucleases </it>(ZFN) with either proviral-HIV-pol gene or proviral-HIV-1 whole-genome specificity respectively, and (ii) to advance a model for pre-clinically testing lentiviral vectors (LV) that deliver and transduce either ZFN genotype.</p> <p>Methods and Results</p> <p><it>First, </it>we computationally generated the consensus sequences of (a) 114 dsDNA-binding zinc finger (Zif) <it>arrays </it>(ZFAs or Zif_HIV-pol) and (b) two zinc-finger <it>nucleases </it>(ZFNs) which, unlike the AcsI and ApoI homeodomains, possess specificity to >18 base-pair sequences uniquely present within the HIV-pol gene (Zif_HIV-polF_N). Another 15 ZFNs targeting >18 bp sequences within the complete HIV-1 proviral genome were constructed (Zif_HIV-1F_N). <it>Second, </it>a model for constructing lentiviral vectors (LVs) that deliver and transduce a diploid copy of either Zif_HIV-polF_Nor Zif_HIV-1F_Nchimeric genes (termed <b>LV- 2xZif</b>_{<b>HIV-pol</b>}<b>F</b>_{<b>N </b>}and <b>LV- 2xZif</b>_<b>HIV-1</b><b>F</b>_{<b>N, </b>}respectively) is proposed. <it>Third, </it>two preclinical models for controlled testing of the safety and efficacy of either of these LVs are described using active HIV-infected TZM-bl reporter cells (HeLa-derived JC53-BL cells) and latent HIV-infected cell lines.</p> <p>Conclusion</p> <p><b>LV-2xZif</b>_{<b>HIV-pol</b>}<b>F</b>_{<b>N </b>}and <b>LV- 2xZif</b>_<b>HIV-1</b><b>F</b>_{<b>N </b>}may offer the <it>ex-vivo </it>or even <it>in-vivo </it>experimental opportunity to halt HIV replication functionally by directly abrogating HIV-pol-gene-action <it>or </it>disrupting/excising over 80% of the proviral HIV DNA from latently infected cells.</p

LabKey Server: An open source platform for scientific data integration, analysis and collaboration

<p>Abstract</p> <p>Background</p> <p>Broad-based collaborations are becoming increasingly common among disease researchers. For example, the Global HIV Enterprise has united cross-disciplinary consortia to speed progress towards HIV vaccines through coordinated research across the boundaries of institutions, continents and specialties. New, end-to-end software tools for data and specimen management are necessary to achieve the ambitious goals of such alliances. These tools must enable researchers to organize and integrate heterogeneous data early in the discovery process, standardize processes, gain new insights into pooled data and collaborate securely.</p> <p>Results</p> <p>To meet these needs, we enhanced the LabKey Server platform, formerly known as CPAS. This freely available, open source software is maintained by professional engineers who use commercially proven practices for software development and maintenance. Recent enhancements support: (i) Submitting specimens requests across collaborating organizations (ii) Graphically defining new experimental data types, metadata and wizards for data collection (iii) Transitioning experimental results from a multiplicity of spreadsheets to custom tables in a shared database (iv) Securely organizing, integrating, analyzing, visualizing and sharing diverse data types, from clinical records to specimens to complex assays (v) Interacting dynamically with external data sources (vi) Tracking study participants and cohorts over time (vii) Developing custom interfaces using client libraries (viii) Authoring custom visualizations in a built-in R scripting environment.</p> <p>Diverse research organizations have adopted and adapted LabKey Server, including consortia within the Global HIV Enterprise. Atlas is an installation of LabKey Server that has been tailored to serve these consortia. It is in production use and demonstrates the core capabilities of LabKey Server. Atlas now has over 2,800 active user accounts originating from approximately 36 countries and 350 organizations. It tracks roughly 27,000 assay runs, 860,000 specimen vials and 1,300,000 vial transfers.</p> <p>Conclusions</p> <p>Sharing data, analysis tools and infrastructure can speed the efforts of large research consortia by enhancing efficiency and enabling new insights. The Atlas installation of LabKey Server demonstrates the utility of the LabKey platform for collaborative research. Stable, supported builds of LabKey Server are freely available for download at <url>http://www.labkey.org</url>. Documentation and source code are available under the Apache License 2.0.</p

R&D Models: Lessons from Vaccine History

A preventive HIV vaccine offers the best hope for ending the AIDS pandemic. Scientific evidence suggests that an HIV vaccine is possible, and funding for HIV vaccine research and development (R&D) has increased substantially in recent years. The speed of progress toward an HIV vaccine will depend on the management of the effort as well as on its scale, however, and organizational issues have been the subject of vigorous debate. With this paper, we seek to shed light on these debates by examining the history of vaccine development, as well as some examples of large R&D initiatives in other areas. We focus on two issues: the roles of the public and private sectors, and the merits and risks of strong central direction of R&D. We also consider the scientific, regulatory, and institutional changes that complicate extrapolation from past experience to the case of HIV vaccines. Our analysis draws on extensive interviews with experts in the field as well as a literature review