mRNA Vaccine Technology

Why in the news?

• Russia developed a new mRNA vaccine named Enteromix to treat cancer, which showed 100% efficacy in clinical trials.

mRNA Vaccine Technology

• What is it?
  • mRNA vaccines use a synthetic messenger RNA sequence that codes for a disease-specific antigen like spike protein in the case of SARS CoV-2.
  • Once inside the body, host cells use the mRNA to produce the antigen, which then triggers an immune response.
  • Unlike traditional vaccines, they do not use live pathogens or protein subunits
• How it Works:
  • Design: mRNA sequence is created in the lab using the pathogen’s genetic code.
  • Delivery: Encapsulated in lipid nanoparticles (LNPs) to protect from degradation.
  • Translation: Host ribosomes read the mRNA and synthesize antigenic proteins.
  • Immune Response: Antigen presented initiates the action of B-cells (antibody production) and T-cells (cellular immunity).
  • Degradation: mRNA naturally breaks down, leaving no trace in the body.
• Global Examples
  • Pfizer-BioNTech (BNT162b2): First approved mRNA COVID-19 vaccine (Dec 2020).
  • Moderna (mRNA-1273): COVID-19 vaccine with similar technology.
  • CureVac, Sanofi: Developing next-gen mRNA vaccines.
• India in mRNA Vaccine Research:
  • Gennova Biopharmaceuticals (Pune): Developed HGCO19, India’s first indigenous mRNA vaccine (in collaboration with DBT).
  • Ongoing research on multivalent mRNA vaccines (for flu, COVID variants).
  • Government push under Atmanirbhar Bharat & Biotechnology Innovation Mission.
• Advantages:
  • Rapid Development: Can be designed in weeks once the pathogen genome is known.
  • Flexibility: Easily adaptable for new variants (e.g., COVID-19 mutations).
  • No Risk of Infection: As no live pathogen is used.
  • Strong Immune Response: Induces both humoral and cellular immunity.
  • Scalability: Lab-based production, faster than egg/cell culture methods.
• Challenges
  • High Cost: Advanced tech & storage increase vaccine price.
  • Vaccine Hesitancy: Misinformation about genetic alteration.
  • Stability Issues: mRNA is fragile, prone to degradation.
  • Cold Chain Dependency: Require ultra-low temperatures (-70°C for Pfizer initially).
  • Equity Concerns: Limited availability in developing countries.