Free Radicals & Antioxidants

Free Radicals & Antioxidants

Free radicals are molecules with one or more unpaired electrons. They are highly reactive and can damage DNA, proteins, and lipids. Antioxidants protect cells by neutralizing free radicals.

Reactive Oxygen Species (ROS)

  • Superoxide (O₂•⁻): Formed in ETC (Complex I, III leakage), NADPH oxidase (phagocytes), xanthine oxidase. First free radical generated.
  • Hydrogen Peroxide (H₂O₂): Formed from superoxide via superoxide dismutase (SOD). Less reactive but generates hydroxyl radical in Fenton reaction.
  • Hydroxyl Radical (•OH): Most reactive and damaging. Formed by Fenton reaction: H₂O₂ + Fe²+ → •OH + OH⁻ + Fe³+. Attacks DNA (strand breaks), lipids (peroxidation), proteins.
  • Peroxynitrite (ONOO⁻): Formed from O₂•⁻ + NO•; highly toxic; damages proteins and DNA.

Sources of ROS

  • Normal: ETC leakage (~1–2%), peroxisomal β-oxidation, CYP450
  • Pathological: Ischemia-reperfusion injury, inflammation, radiation
  • Phagocytic burst: NADPH oxidase generates O₂•⁻ → kills bacteria (MPO system)

Antioxidant Defenses

Enzymatic:

  • Superoxide Dismutase (SOD): 2 O₂•⁻ + 2H+ → H₂O₂ + O₂ (Cu/Zn-SOD in cytosol; Mn-SOD in mitochondria)
  • Catalase: 2 H₂O₂ → 2 H₂O + O₂ (in peroxisomes). Very efficient; activated Fe-containing enzyme.
  • Glutathione Peroxidase (GPx): H₂O₂ + 2 GSH → GSSG + 2 H₂O. Requires Selenium as cofactor. Glutathione Reductase regenerates GSH from GSSG (requires NADPH from HMP shunt).

Non-enzymatic:

  • Vitamin E (Tocopherol): Fat-soluble; scavenges peroxyl radicals; major lipid-phase antioxidant; protects PUFA in membranes
  • Vitamin C (Ascorbate): Water-soluble; reduces superoxide; also regenerates Vitamin E from Vit E radical
  • β-Carotene: Quenches singlet oxygen (excited O₂)
  • Uric Acid: Important plasma antioxidant (in primates); accounts for ~50% of plasma antioxidant capacity
  • Glutathione (GSH): Tripeptide (Glu-Cys-Gly); most important intracellular antioxidant
  • Thioredoxin: Reduces protein disulfide bonds; part of antioxidant network

Oxidative Stress & Disease

When ROS production exceeds antioxidant capacity → oxidative stress → damage:

  • Lipid peroxidation (membrane disruption) — atherosclerosis (oxLDL)
  • DNA damage → mutations → cancer
  • Protein oxidation → enzyme inactivation, neurodegeneration (Parkinson's, Alzheimer's)
  • Ischemia-reperfusion injury (heart, brain during stroke) — major oxidative stress burst on reperfusion

Respiratory Burst (Phagocytes)

Neutrophils and macrophages use controlled ROS generation to kill pathogens:

  1. NADPH oxidase: 2 O₂ + NADPH → 2 O₂•⁻ + NADP+ + H+ (consumes O₂ — hence "respiratory" despite not producing ATP)
  2. SOD: O₂•⁻ → H₂O₂
  3. Myeloperoxidase (MPO): H₂O₂ + Cl⁻ → HOCl (hypochlorous acid — bleach; most bactericidal) → kill bacteria

Chronic Granulomatous Disease (CGD): NADPH oxidase defect → cannot kill catalase-positive organisms (Staph. aureus, Aspergillus) → recurrent, severe infections.

Quiz - Exam Preparation Strategy

When studying Quiz for your final board exams, it is critical to focus on the core concepts and fundamental formulas. Relying strictly on NCERT textbook solutions and practicing previous year questions (PYQs) is the proven methodology for scoring high marks. Avoid rote memorization and instead focus on the logical application of the theories presented in this chapter.

⚠️ Common Mistakes to Avoid

❓ Frequently Asked Questions

How can I quickly memorize the concepts of Quiz?

The most effective way is to create short, handwritten revision notes and continuously test your knowledge using our interactive Mock Tests. Spaced repetition and active recall are much better than passive reading.

What type of questions are most commonly asked from Quiz?

Board exams tend to favor conceptual application questions and direct formula-based derivations from the NCERT syllabus. Ensure you have solved every single exercise in the official textbook.

Is reading the NCERT book enough for this chapter?

Yes, the NCERT textbook is the absolute gold standard for board exams. However, to improve your speed and accuracy during the actual exam, you must supplement your reading by solving timed mock tests and objective questions.