E. Allan et al., ANTI-BACTEROIDES LIPOPOLYSACCHARIDE IGG LEVELS IN HEALTHY-ADULTS AND SEPSIS PATIENTS, FEMS immunology and medical microbiology, 11(1), 1995, pp. 5-12
Members of the genus Bacteroides greatly outnumber enterobacteria in t
he human colon and therefore represent a vast potential pool of biolog
ically active LPS. An enzyme-linked immunosorbent assay was developed
to estimate the distribution of IgG levels to LPS from B. fragilis, B.
vulgatus, B. thetaiotaomicron and to a mixture of rough LPS from thre
e enterobacteria and Pseudomonas aeruginosa in sera from 641 adult blo
od donors. By inhibition ELISA some cross-reactivity was demonstrated
between the different anti-bacteroides LPS IgG, but with very little b
etween the anti-bacteroides LPS IgG and the anti-enterobacterial/Pseud
omonas LPS IgG. Serum IgG was measured daily over 5-9-day periods in 1
2 sepsis patients (6 survivors, 6 non-survivors) and in a healthy indi
vidual. In all patients IgG levels fluctuated to a greater extent than
levels in a healthy subject. Variations all followed similar overall
trends and indicated that exposure to bacteroides LPS had occurred. In
5 out of 6 survivors, IgG levels were rising at the end of the period
, while 4 of the 6 non-survivors showed falls, with an exception showi
ng increasing levels to B. fragilis LPS. In 5 out of 6 non-survivors,
IgG levels against B. fragilis LPS were substantially higher than thos
e against the other LPSs. In this small sample some trends in antibody
kinetics have been recognised which suggest bacteroides LPS may be si
gnificant in sepsis. and indicate that this study should be extended.