Systems Biology

study guides for every class

that actually explain what's on your next test

Gene therapy

from class:

Systems Biology

Definition

Gene therapy is a medical technique that aims to treat or prevent diseases by directly modifying the genes within an individual's cells. This approach can involve replacing, inactivating, or introducing genes to fight diseases, particularly genetic disorders and some forms of cancer. The promise of gene therapy lies in its potential to address the underlying causes of genetic conditions, leading to more effective treatments and potentially permanent cures.

congrats on reading the definition of gene therapy. now let's actually learn it.

ok, let's learn stuff

5 Must Know Facts For Your Next Test

  1. Gene therapy has the potential to treat a wide range of conditions, including inherited disorders like cystic fibrosis and muscular dystrophy, as well as certain types of cancer.
  2. The first approved gene therapy treatment was Luxturna, which is used to treat a rare form of inherited blindness caused by mutations in the RPE65 gene.
  3. Gene therapy can be delivered through two main approaches: in vivo, where therapeutic genes are delivered directly into the patient's body, and ex vivo, where cells are modified outside the body before being reintroduced.
  4. Safety concerns regarding gene therapy include the risk of unintended genetic changes, immune responses against the viral vectors used, and potential long-term effects that are not yet fully understood.
  5. Ongoing research and clinical trials are essential for developing effective gene therapies and ensuring their safety for broader use in the medical field.

Review Questions

  • How does gene therapy differ from traditional treatments for genetic disorders?
    • Gene therapy differs from traditional treatments by targeting the root cause of genetic disorders at the molecular level. While traditional treatments often focus on managing symptoms or complications of a disease, gene therapy aims to correct or replace defective genes responsible for the condition. This innovative approach has the potential to offer more permanent solutions and may lead to cures rather than just management strategies.
  • Discuss the role of viral vectors in the delivery of gene therapy and the associated challenges.
    • Viral vectors play a crucial role in gene therapy by facilitating the delivery of therapeutic genes into patients' cells. These modified viruses are engineered to be safe and effective carriers that can penetrate cell membranes and introduce new genetic material. However, challenges arise from potential immune responses to these vectors, issues related to targeting specific cell types, and concerns about the long-term stability and expression of the introduced genes within the host's genome.
  • Evaluate the future implications of gene therapy on healthcare systems and ethical considerations surrounding its use.
    • The future implications of gene therapy on healthcare systems could be profound, with the potential to shift paradigms in treating genetic disorders and chronic diseases. As techniques become more refined and cost-effective, access to these therapies may improve significantly. However, ethical considerations must also be addressed, such as equitable access to treatments, potential misuse for enhancement purposes rather than therapeutic interventions, and long-term effects on future generations when germline editing is involved. Balancing innovation with ethical responsibility will be critical as gene therapy becomes more mainstream.
© 2024 Fiveable Inc. All rights reserved.
AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.
Glossary
Guides