Immunity and Safety of Covid-19 Synthetic Minigene Vaccine
100 patients around the world
Available in World
Background: The 2019 discovered new coronavirus, Covid-19, is an enveloped positive strand
single strand RNA virus. The number of Covid-19 infected people has increased rapidly and WHO
has warned that the spread of Covid-19 may soon become pandemic and have disastrous outcomes.
Covid-19 could pose a serious threat to human health and global economy. There is no vaccine
available or clinically approved antiviral therapy as yet. This study aims to evaluate the
safety and efficacy of treating Covid-19 infections with a novel lentiviral based DC and T
cell vaccines.
Objective: Primary study objectives: Injection and infusion of LV-SMENP DC and
antigen-specific cytotoxic T cell vaccines to healthy volunteers and Covid-19 infected
patients to evaluate the safety.
Secondary study objectives: To evaluate the anti- Covid-19 efficacy of the LV-SMENP DC and
antigen-specific cytotoxic T cell vaccines.
Design:
1. Based on the genomic sequence of the new coronavirus Covid-19, select conserved and
critical structural and protease protein domains to engineer lentiviral SMENP minigenes
to express Covid-19 antigens.
2. LV-SMENP-DC vaccine is made by modifying DC with lentivirus vectors expressing Covid-19
minigene SMENP and immune modulatory genes. CTLs will be activated by LV-DC presenting
Covid-19 specific antigens.
3. LV-DC vaccine and antigen-specific CTLs are prepared in 7~21 days. Subject will receive
total 5x10^6 cells of LV-DC vaccine and 1x10^8 antigen-specific CTLs via sub-cutaneous
injection and IV infusion, respectively. Patients are followed weekly for one month
after the infusion, monthly for 3 months, and then every 3 months until the trial ends.