15.3 Virulence factors of bacterial and viral pathogens  (Page 5/17)

A classic method of detecting endotoxin is by using the Limulus amebocyte lysate (LAL) test . In this procedure, the blood cells (amebocytes) of the horseshoe crab ( Limulus polyphemus ) is mixed with a patient’s serum. The amebocytes will react to the presence of any endotoxin. This reaction can be observed either chromogenically (color) or by looking for coagulation (clotting reaction) to occur within the serum. An alternative method that has been used is an enzyme-linked immunosorbent assay ( ELISA ) that uses antibodies to detect the presence of endotoxin.

Unlike the toxic lipid A of endotoxin, exotoxin s are protein molecules that are produced by a wide variety of living pathogenic bacteria. Although some gram-negative pathogens produce exotoxins, the majority are produced by gram-positive pathogens. Exotoxins differ from endotoxin in several other key characteristics, summarized in [link] . In contrast to endotoxin, which stimulates a general systemic inflammatory response when released, exotoxins are much more specific in their action and the cells they interact with. Each exotoxin targets specific receptors on specific cells and damages those cells through unique molecular mechanisms. Endotoxin remains stable at high temperatures, and requires heating at 121 °C (250 °F) for 45 minutes to inactivate. By contrast, most exotoxins are heat labile because of their protein structure, and many are denatured (inactivated) at temperatures above 41 °C (106 °F). As discussed earlier, endotoxin can stimulate a lethal inflammatory response at very high concentrations and has a measured LD ₅₀ of 0.24 mg/kg. By contrast, very small concentrations of exotoxins can be lethal. For example, botulinum toxin , which causes botulism , has an LD ₅₀ of 0.000001 mg/kg (240,000 times more lethal than endotoxin).

The exotoxins can be grouped into three categories based on their target: intracellular targeting, membrane disrupting, and superantigens. [link] provides examples of well-characterized toxins within each of these three categories.