Autoantibodies to neurofilaments (NF), glial fibrillary acidic protein (GFAP) and myelin basic protein (MBP) in workers exposed to lead.

: An expanded follow-up assessment of the autoantibody response to neuronal and astroglial autoantigens (NF68; NF160; NF200; MBP; GFAP) as early markers of neurotoxicity was performed in male workers exposed to lead (Pb) of a battery factory (n=50) and a matched reference group (R) of workers at a food packing plant (n=39). Mean age, years of exposure and blood lead (PbB ug/dl) (+/-SD) for lead and R, respectively, were: Age:39 +/- 6; 41 +/- 7; Yrs. Exposed: 14 +/- 6:0; PbB: 32 +/- 11: 16 +/- 5 percent with detectable titers to nervous system proteins in the Pb and R populations, respectively, were: Anti-NF68: 59; 17; Anti-NF160: 28; 15; Anti-NF200: 25; 0; Anti-GFAP: 90; 20; Anti-MBP: 16; 4. Autoantibodies to nervous system proteins predominated in workers occupationally exposed to Pb compared to R. Anti-NF68 and GFAP titers were the most frequently encountered. Anti-NF68 titers were significantly correlated with years of exposure (r = 0.538, p < 0.0001) and with PbB (r=0.325, p < 0.05). Furthermore, the number of detectable autoantibody types correlated with clinical scores of sensorimotor deficits (r = 0.459, p < 0.0001). This study suggests that autoantibodies provide a promising biomarker of neurotoxicity while providing information on subcellular targets. It also raises concerns of toxicant-induced autoimmune neuropathy.