HKU AIDS Institute Invents Universal Antibody Drug
A research team led by scientists at AIDS Institute and Department of Microbiology, Li Ka Shing Faculty of Medicine of The University of Hong Kong (HKU) invents a universal antibody drug against HIV/AIDS. By engineering a tandem bi-specific broadly neutralizing antibody, the team found that this novel antibody drug is universally effective not only against all genetically divergent global HIV-1 strains tested but also promoting the elimination of latently infected cells in a humanized mouse model. The new findings are now published in the April issue of Journal of Clinical Investigation, one of the world’s leading biomedical journals. (link to the publication).
AIDS remains an incurable disease. In the world, HIV/AIDS has resulted in estimated 40 million deaths while 36.9 million people are still living with the virus. To end the HIV/AIDS pandemic, it is important to discover either an effective vaccine or a therapeutic cure. There are, however, two major scientific challenges: the tremendous HIV-1 diversity and the antiviral drug-unreachable latency. Since it is extremely difficult to develop an appropriate immunogen to elicit broadly neutralizing antibodies (bnAbs) against genetically divergent HIV-1 subtypes, developing existing bnAbs as passive immunization becomes a useful approach for HIV-1 prophylaxis and immunotherapy.
Previous studies have investigated the potency, breadth and crystal structure of many bnAbs including their combination both in vitro and in vivo. Naturally occurring HIV-1 resistant strains, however, are readily found against these so-called bnAbs and result in the failure of durable viral suppression in bnAb-based monotherapy. To improve HIV-1 neutralization breadth and potency, bispecific bnAb, which blocks two essential steps of HIV-1 entry into target cells, have been engineered and show promising efficacy in animal models. Before the publication, tandem bi-specific bnAb has not been previously investigated in vivo against HIV-1 infection.
The HKU research team invented a single gene-encoded tandem broadly neutralizing antibody, titled “BiIA-SG”, which “kills two birds with one stone”. By attaching to host protein CD4, BiIA-SG strategically ambushes invading HIV-1 particles to protect CD4 positive T cells. BiIA-SG not only displays a potent activity against all three panels of 124 genetically divergent global HIV-1 strains tested, but also prevents diverse live viral challenges completely in humanized mice. Moreover, gene transfer of BiIA-SG achieves pro-longed drug availability in vivo, leading to a promising efficacy of eliminating HIV-1 infected cells in humanized mice. Therefore, the research team provides a proof-of-concept that BiIA-SG is a novel universal antibody drug for prevention and immunotherapy against HIV-1 infection.
The accumulated number of HIV-1 infections has more than doubled from 4,443 diagnostic cases in 2009 to 9,091 in 2017, despite the timely introduced combination antiretroviral therapy and prevention interventions in Hong Kong. Currently, the estimated annual cost is over HK$550 millions for antiretroviral drugs alone per year in Hong Kong, not to mention the rising issues of life-long financial burdens, drug toxicity and resistant viruses. The newly invented universal antibody drug brings the hope to fight these issues. With significantly improved breadth and potency, BiIA-SG will hopefully be the first “Made in Hong Kong” anti-HIV-1 antibody drug for clinical development.
The research was primarily conducted by the HKU team led by Professor Chen Zhiwei, Director of the AIDS Institute and Professor of Department of Microbiology. Four graduate students Xilin Wu, Jia Guo, Mengyue Niu, Ka Shing Lam and Research assistant professor Dr Li Liu of Department of Microbiology made major contributions. Key external collaborators include Dr Hui Wang at Shenzhen Third People’s Hospital, Professor Hong Shang at The First Affiliated Hospital of China Medical University, Professor Xia Jin and Professor Paul Zhou at Institut Pasteur of Shanghai of Chinese Academy of Sciences, and Professor Linqi Zhang at Tsinghua University.
The work was supported by the Hong Kong RGC/NSFC (N_HKU709/11), HMRF(12110952), RGC(HKU5/CRF/13G), ITF(ITS/170/17), China’s National Science and Technology Major Project (2013ZX10001005002001), National Natural Science Foundation Award (81530065), Grand Challenge China (81661128042), the Sanming Project of Medicine in Shenzhen, HKU University Development Fund and The Li Ka Shing Faculty of Medicine Matching Fund to the HKU AIDS Institute, for financial supports.
Please contact Li Ka Shing Faculty of Medicine of The University of Hong Kong by email ([email protected]).
Please visit the website at http://www.med.hku.hk/news/ for press photo.
redishot2 on May 8th, 2018 at 13:17 UTC »
TL;DR a Hong Kong research team has been successful in reducing, preventing, and maybe even curing all strands/ mutations of HIV-1 in their test rats.
Future Implications
Is the World Cured Now? It is important to remember that this is only a successful outcome of a research project. To get to world-wide drug distribution will take time and (more than likely), a lengthy clinical trial process. In the US, this would count as a preclinical study (animal testing). There are two more stages after which focuses on humans. Just because this works in rats/ mice, doesn’t necessarily mean it will be successful in humans.
That said, this is a great milestone and it will hopefully quickly move to human trials.
Edit: misremembered the order of us drug testing stages
Edit 2: China != Hong Kong
Henry-Jones-Jr on May 8th, 2018 at 13:10 UTC »
At this rate, mice will be cured of all diseases pretty soon...
mvea on May 8th, 2018 at 11:27 UTC »
The title of the post is a copy and paste from the title and first paragraph of the linked academic press release here:
Journal Reference:
Xilin Wu, Jia Guo, Mengyue Niu, Minghui An, Li Liu, Hui Wang, Xia Jin, Qi Zhang, Ka Shing Lam, Tongjin Wu, Hua Wang, Qian Wang, Yanhua Du, Jingjing Li, Lin Cheng, Hang Ying Tang, Hong Shang, Linqi Zhang, Paul Zhou, Zhiwei Chen.
Tandem bispecific neutralizing antibody eliminates HIV-1 infection in humanized mice.
Journal of Clinical Investigation, 2018;
DOI: 10.1172/JCI96764
Link: https://www.jci.org/articles/view/96764
Abstract
The discovery of an HIV-1 cure remains a medical challenge because the virus rebounds quickly after the cessation of combination antiretroviral therapy (cART). Here, we investigate the potential of an engineered tandem bispecific broadly neutralizing antibody (bs-bnAb) as an innovative product for HIV-1 prophylactic and therapeutic interventions. We discovered that by preserving 2 single-chain variable fragment (scFv) binding domains of each parental bnAb, a single gene–encoded tandem bs-bnAb, BiIA-SG, displayed substantially improved breadth and potency. BiIA-SG neutralized all 124 HIV-1–pseudotyped viruses tested, including global subtypes/recombinant forms, transmitted/founder viruses, variants not susceptible to parental bnAbs and to many other bnAbs with an average IC50 value of 0.073 μg/ml (range < 0.001–1.03 μg/ml). In humanized mice, an injection of BiIA-SG conferred sterile protection when administered prior to challenges with diverse live HIV-1 stains. Moreover, whereas BiIA-SG delayed viral rebound in a short-term therapeutic setting when combined with cART, a single injection of adeno-associated virus–transferred (AAV-transferred) BiIA-SG gene resulted dose-dependently in prolonged in vivo expression of BiIA-SG, which was associated with complete viremia control and subsequent elimination of infected cells in humanized mice. These results warrant the clinical development of BiIA-SG as a promising bs-bnAb–based biomedical intervention for the prevention and treatment of HIV-1 infection.