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Dev

Research Projects | Overview

Our previous work includes the identification of the HIV-1 coreceptor CCR5 and co-identified the cellular receptor for SARS-CoV, ACE2, which also turned out to be the receptor for SARS-CoV-2. We also identified TFR1 as the receptor for all New World hemorrhagic fever arenaviruses. In addition to receptor identification, we found that tyrosine sulfation was a common element to all known HIV-1 coreceptors and essential for coreceptor function and that the lysosomal enzymes, cathepsins, were essential for SARS-CoV infection. Our current projects described below are built on our previous experience.

SARS-CoV-2

image of blue D614 AND G614 cells pre and post-fusion The earliest mutation SARS-CoV-2 acquired is D614G in the spike protein (S). All variants subsequently emerged kept this mutation throughout the pandemic, indicating its importance for the virus transmission and/or infection. Our biochemical and cryo-EM studies show that the D614G mutation increased virus infectivity by reducing S1 shedding and increasing S-protein incorporation into the virion. We are currently focusing on various forms of mRNA-LNP based vaccines.
 

Flavivurses

flavivirus, alphavirus, filovirus and arenavirusesWest Nile, dengue, and Zika, yellow fever, and Japanese encephalitis viruses are well-known examples of pathogenic flaviviruses. So far, no entry receptor has been identified for any flavivirus, but several proteins that promote flavivirus entry have been found including phosphatidylserine (PS) receptors. The main physiological function of the PS receptors is to recognize PS exposed on the apoptotic cells and mediate phagocytic clearance of those cells. These PS receptors are hijacked by many viruses and utilized as their entry factors, a mechanism described as ‘apoptotic mimicry’. TIM (T-cell Immunoglobulin Mucin protein)- and TAM (TYRO3, AXL, and MERTK)-family members are the best characterized PS receptors for their ability to mediate virus entry. PS receptors are not described as virus ‘receptor’ because they non-specifically support the entry of a wide range of enveloped viruses. We showed that flaviviruses most efficiently utilized TIM and TAM family proteins.

Years ago, a dengue vaccine, DengVaxia by Sanofi, was licensed in 20 countries, and numerous children were vaccinated with it. It was discovered only years later that the hospitalization rate increased if the vaccinees were naïve to dengue virus at the time of vaccination. This phnomenon is believed to be the result of ADE (Antibody Mediated Enhancement of infection), in which the antibodies produced by vaccination enhance a subsequent infection. DengVaxia is now approved only for the use in the individuals with prior infection. Thus, there is no effective dengue vaccine for naïve individuals, although 100-400 million people are infected yearly by dengue virus. Using our experience and knowledge, we are seeking to improve dengue vaccines.

In addition to causing frequent outbreaks and serious illness, flaviviruses have several scientifically important and enigmatic properties that are exciting and fun to investigate.

Viral Vectors for Gene Therapy

four rows of viral gene therapy of AAV and eAAV with engineering, ex vivo, in vivo, and application Adeno-associated virus (AAV) is the most commonly used viral gene-therapy vector. However, there remain several challenges: high cost, toxicity at high doses, and anti-transgene antibody production boosted by the AAV capsid and packaged DNA, which diminishes vector competency. Most these challenges could be mitigated or compensated by the development of more efficient vectors. As a proof of principal, we recently developed AAV vectors that exhibit much higher transduction efficiency in the skeletal muscle, which can be used for vaccine administration, and in the CD4 T cells, which can be used to inactivate HIV-1 genome in the chronically infected cells.