An immunohistochemical, clinical and electroneuromyographic correlative study of the neural markers in the neuritic form of leprosy

The nerve biopsies of 11 patients with pure neuritic leprosy were submitted to routine diagnostic procedures and immunoperoxidase staining with antibodies against axonal (neurofilament, nerve growth factor receptor (NGFr), and protein gene product (PGP) 9.5) and Schwann cell (myelin basic protein, S-100 protein, and NGFr) markers. Two pairs of non-adjacent histological cross-sections of the peripheral nerve were removed for quantification. All the fascicles of the nerve were examined with a 10X-ocular and 40X-objective lens. The immunohistochemistry results were compared to the results of semithin section analysis and clinical and electroneuromyographic data. Neurofilament staining was reduced in 100 percent of the neuritic biopsies. NGFr positivity was also reduced in 81.8 percent, PGP staining in 100 percent of the affected nerves, S100 positivity in 90.9 percent, and myelin basic protein immunoreactivity in 90.9 percent. Hypoesthesia was associated with decreased NGFr (81.8 percent) and PGP staining (90.9 percent). Reduced potential amplitudes (electroneuromyographic data) were found to be associated with reduced PGP 9.5 (63.6 percent) and nerve fiber neurofilament staining (45.4 percent) by immunohistochemistry and with loss of myelinated fibers (100 percent) by semithin section analysis. On the other hand, the small fibers (immunoreactive dots) seen amid inflammatory cells continued to be present even after 40 percent of the larger myelinated fibers had disappeared. The present study shows an in-depth view of the destructive effects of leprosy upon the expression of neural markers and the integrity of nerve fiber. The association of these structural changes with the clinical and electroneuromyographic manifestations of leprosy peripheral neuropathy was also discussed.

Quantitative evidence for neurofilament heavy subunit aggregation in motor neurons of spinal cords of patients with amyotrophic lateral sclerosis

Amyotrophic lateral sclerosis (ALS), a neurodegenerative disease of unknown etiology, affects motor neurons leading to atrophy of skeletal muscles, paralysis and death. There is evidence for the accumulation of neurofilaments (NF) in motor neurons of the spinal cord in ALS cases. NF are major structural elements of the neuronal cytoskeleton. They play an important role in cell architecture and differentiation and in the determination and maintenance of fiber caliber. They are composed of three different polypeptides: light (NF-L), medium (NF-M) and heavy (NF-H) subunits. In the present study, we performed a morphological and quantitative immunohistochemical analysis to evaluate the accumulation of NF and the presence of each subunit in control and ALS cases. Spinal cords from patients without neurological disease and from ALS patients were obtained at autopsy. In all ALS cases there was a marked loss of motor neurons, besides atrophic neurons and preserved neurons with cytoplasmic inclusions, and extensive gliosis. In control cases, the immunoreaction in the cytoplasm of neurons was weak for phosphorylated NF-H, strong for NF-M and weak for NF-L. In ALS cases, anterior horn neurons showed intense immunoreactivity in focal regions of neuronal perikarya for all subunits, although the difference in the integrated optical density was statistically significant only for NF-H. Furthermore, we also observed dilated axons (spheroids), which were immunopositive for NF-H but negative for NF-M and NF-L. In conclusion, we present qualitative and quantitative evidence of NF-H subunit accumulation in neuronal perikarya and spheroids, which suggests a possible role of this subunit in the pathogenesis of ALS.

Unilateral enucleation induces an increase of 160 kd neurofilament in lateral geniculate nuclei synapses

Ultrastructural synaptic changes of retinal origin in the pars dorsalis lateral geniculate nuclei (dLGN) after enucleation have been studied in this laboratory, showing a filamentous hypertrophy with maximal expression at 4-6 days post-lesion in monkeys (Pecci Saavedra et al., 1970, 1971). The aim of this work was to elucidate the nature of the newly formed filament in dLGN in post-enucleated rats. Male Wistar rats were fixed with 4 paraformaldehyde plus 0.25 glutaraldehyde in 0.1M phosphate buffer, through the abdominal aorta after 3, 5, and 7 days postenucleation. Sections obtained were incubated with antibodies to the phosphorylated portion of the 160 Kd neurofilaments (1:3000) and anti-GFAP (1:25000). There was an increase in 160 Kd neurofilament staining in axons and degenerating nerve endings in dLGN, as well as a typical astroglial immunostained reaction. Our results show that the newly formed neurofilaments after deafferentation are of the 160 Kd type, commonly present in normal axons.