Macrophages antimicrobial and cytotoxic activities

Antimicrobicia! & cytotoxic substances produced by activated macrophages can destroy phagocytosed microorganisms.

Mediators of antimicrobial and cytotoxic activity of macrophages and neutrophils

Oxygen-dependent killing	Oxygen-independent killing
Reactive oxygen intermediates O2.- (Superoxide anion) OH- (Hydroxide radicals) H2O2 (Hydrogm peroxide) ClO- (Hypochlorite anion)	Defensins Tumor necrosis factor -alpha (macrophage only) Lysozyme Hydrolytie enzymes
Reactive nitrogen intermediates NO (nitric oxide) NO2 (nitrogen dioxide) HNO2 (nitrous oxide)
Others NH2Cl (monochloramine)

A) Oxygen-dependent killing mechanism:

• Activated phagocytes produce a number of "Reactive Oxygen Intermediates (ROIs)" & "reactive nitrogen intermediates" that have potent antimicrobial activity. 
• During phagocytosis, a metabolic process known as the "Respiratory Burst" occurs in activated macrophages.
• Due to the respiratory burst, membrane - bound enzyme "Oxidase" will activate, that catalyzes the reduction of oxygen to superoxide anion (powerful oxidizing agent), a reactive oxygen intermediate & hydroxyl radicals &H₂O_2.
• As the lysosomes fuses with the phagosomes, the activity of "Myeloperoxidase" produces hypochlorite from hydrogen peroxide and chloride ions.
• Hypochlorite, the active agent of household bleach, is toxic to ingested microbes.
• When the macrophages are activated with bacterial cell wall components. The T-cell derived cytokine (IFN-γ), they begin to express high levels of “Nitric Oxide synthatase"(NOS), an enzyme that oxidizes L-arginine to yield L-Citrulline & nitric oxide (NO), a gas.

L-Arginine + O₂ + NADPH -> NO + L-Citrulline +NADP⁺

• No has potent anti-microbial activity.

B) Oxygen-independent killing mechanism:

• Activated macrophages also synthesize 'lysozyme' and various hydrolytic enzymes whose degradative activities do not require Oxygen.
• The activated macrophages produce a group of anti­microbials cytotoxic peptides, commonly known as "Defensin", these Molecules are cystine- rich cationic peptides containing 29-35 Amino acids residues.
• The defensin is circularized protein.
• The peptide form ion-permeable channel in bacterial cell membrane.

Intracellular pathogens:

• Some microorganism can survive & multiply within pathogens include:
  • Listeria monocytogenes
  • Salmonella typhimurium
  • Neisseria gonorrhoeae &
  • Mycobacterium aviutn
  • Mycobacteriura tuberculosis
  • Mycobacterium leprea
  • Brucella abortus &
  • Candida albicans
• Some intracellular pathogens prevent the fusion of lysosomes with phagosome and proliferate with in phagosomes.