Noradrenergic hyperinnervation may inhibit necrosis of coronary arterial smooth muscle cells in stroke-prone spontaneously hypertensive rats

Noradrenergic (NA) nerve fibre distribution and vascular smooth muscle morphology were investigated in the coronary artery of stroke-prone spontaneously hypertensive rats (SHRSP). Fluorescent NA nerve fibres of SHRSP aged 10, 30, 60, 90 and 180 days were examined by the glyoxylic acid method and compared with those of age-matched normotensive Wistar Kyoto (WKY) rats. The distribution densities of NA nerve fibres were measured by quantitative image analysis using the Interactive Bildanalyse System. The densities of NA nerve fibres of the left coronary artery of SHRSP were significantly higher than those of WKY rats at all ages examined. NA hyperinnervation in the coronary artery of SHRSP may be caused by the hyperfunction of the stellate ganglia which innervate the coronary arteries. Scanning electron microscopy observations showed that the surface of smooth muscle cells of the left coronary artery in SHRSP was smooth and similar to that of WKY rats at 120 days of age, but was slightly modified by more invaginations and projections than that in WKY rats at 180 days of age. No necrotic cells, however, were found in SHRSP. By transmission electron microscopy the smooth muscle cells in SHRSP were shown to be irregular in profile with deep indentations of the plasma membrane and surrounded by many layers of basal laminalike material, but no necrotic cells were found. We suggest that NA hyperinnervation protects the vascular smooth muscle cells from necrosis in the coronary artery of SHRSP by a trophic effect mediated by NA nerve fibres.

Cardiac sympathetic nerve function assessed by [131I]metaiodobenzylguanidine after ischemia and reperfusion in anesthetized dogs

BACKGROUND

Accumulation of 131I-labeled metaiodobenzylguanidine ([131I]MIBG), a radiolabeled norepinephrine analog, is reduced in infarcted myocardium, suggesting loss of cardiac sympathetic nerve viability. Histopathologic studies, however, indicate that the nerve endings ae morphologically intact. Experiments were therefore designed to determine the mechanism of reduced MIBG accumulation.

METHODS AND RESULTS

Desipramine, a specific blocker or neuronal norepinephrine reuptake, was used to separate the portions of total myocardial [131I]MIBG accumulation attributable to neuronal and nonneuronal uptake mechanisms. Sixteen dogs underwent circumflex coronary artery occlusion for 60 minutes followed by a 5-hour reperfusion. [131I]MIBG was injected intravenously 1 hour after reperfusion. The left ventricle was removed and incubated in triphenyltetrazolium chloride to identify infarcted and viable myocardium within the zone at risk. Preliminary studies in sham-operated dogs showed that pretreatment with desipramine (5 mg/kg) reduced [131I]MIBG accumulation 4 hours after injection to 38.9% of untreated controls. Chemical sympathectomy by topical phenol resulted in a similar decrease in [131I]MIBG accumulation (to 45.7% of normal), and desipramine did not produce further inhibition of [131I]MIBG accumulation over that produced by phenol alone, indicating that the inhibitory effect of desipramine on neuronal accumulation of [131I]MIBG was essentially complete. In dogs undergoing ischemia-reperfusion, myocardial samples from infarcted and viable postischemic areas showed 64.5% +/- 11.85 and 84.7% +/- 9.1% of normal [131I]MIBG activity, respectively (both, p < 0.01 vs normal area, n = 9). With desipramine pretreatment (n = 7), accumulation of [131I]MIBG decreased in all areas. Neuronal accumulation was reduced uniformly in infarcted, viable postischemic, and normal areas by 30% to 35% compared with sham-operated controls. In contrast, nonneuronal accumulation was only 39.3% in infarcted areas and 84.6% in viable postischemic areas compared with normal areas, and these decreases accounted entirely for the reduced total [131I]MIBG accumulation.

CONCLUSIONS

Reduced [131I]MIBG accumulation in infarcted myocardium after 60 minutes of ischemia and 5 hours of reperfusion is attributable to a deficit in nonneuronal accumulation and not to decreased accumulation by sympathetic nerves.

Keratokyphosis in rabbits: a functional and morphologic study

Keratokyphosis, a "nonfreeze keratomileusis" procedure, was applied in rabbits. The refractive changes were -6.5 +/- 0.7 (SD), -9.5 +/- 2.6, and -13.0 +/- 3.2 D for convex applanation surfaces with a vertex of +100 microns, +125 microns, and +150 microns in the microkeratome and +1.5 +/- 2.0 and +2.5 +/- 2.6 D for concave applanation surfaces with a vertex of -100 microns and -125 microns. The pachymetric corneal changes were +43 +/- 24 microns, +39 +/- 32 microns, and +71 +/- 24 microns for the convex applanation surfaces and -21 +/- 40 microns and -17 +/- 24 microns for the concave. Wound healing was uncomplicated. The scar at the interface was 0-5 microns wide. The mean central density of nerve endings was 1,255 +/- 532/mm2. The endothelial cell size was 25.1% (p < 0.01) greater as measured by specular microscopy than by vital preparation technique; this difference was greater with higher (33.4%) than with lower (18.02%) corneal refraction (p = 0.02). In addition, there was a method-independent correlation (correlation coefficient, -0.63) between endothelial cell count and corneal thickness. This may indicate an increased demand on corneal endothelium in thickened corneas.

Histopathology of idiopathic chronic recurrent vertigo

Vestibular neuritis is a degenerative neuropathy of the peripheral vestibular system. The etiology of this condition is uncertain, although it is generally believed to be viral. A small percentage of patients with vestibular neuritis have chronic recurrent episodes of vertigo. Detailed cytologic descriptions of acute or chronic vestibular neuritis are lacking, and no previous studies have reported evidence of chronic inflammation in human temporal bone specimens. The authors of this study examined temporal bone specimens from three patients with a history of chronic recurrent vertigo of unknown cause. Varying degrees of inflammation and destruction were seen in the vestibular system, and mild involvement of the cochlear system was noted. These findings are consistent with postinfectious inflammatory changes of the cochlear-vestibular system analogous to a postinfectious syndrome involving the central nervous system.

Immunohistochemical demonstration of sensory and autonomic nerve terminals in herniated lumbar disc tissue

STUDY DESIGN

Thirty-five lumbar disc herniations removed at surgery were studied by indirect immunocytochemistry.

OBJECTIVES

To localize immunohistochemically both sensory and autonomic nerve terminals in disc herniations.

SUMMARY OF BACKGROUND DATA

Using various more or less specific histologic and histochemical methods, investigators have reported the presence of free nerve terminals in disc tissue. However, very few studies have, to date, convincingly demonstrated nerve terminals in disc tissue that morphologically resemble the tiny nerve terminals of sensory and autonomic nerve fibers.

METHODS

Amplification of the peroxidase reaction product in avidin-biotin-peroxidase complex immunostaining by the glucose oxidase-diaminobenzidine-nickel sulfate method was used to visualize small punctate nerve terminals at high magnification. Thin frozen sections from disc herniation tissue prefixed in Zamboni fixative were incubated with antibodies to synaptophysin to visualize nerve terminals in general, and with antibodies to substance P and C-flanking peptide of neuropeptide Y to further characterize nerve terminals as either sensory or sympathetic.

RESULTS

Nerve terminals could be demonstrated in 29 (83%) of the 35 disc herniations. They were observed with the synaptophysin antibody in 17 of 35 (49%) disc herniations, with substance P in 16 of 35 (46%) disc herniations, and with C-flanking peptide of neuropeptide Y in 13 of 35 (37%) disc herniations. Morphologically, the nerve terminals were seen as tiny immunoreactive dots. Some of the nerve terminals were observed close to disc cells, possibly suggesting direct interaction.

CONCLUSIONS

Small nerve terminals in disc herniations, both sensory substance P endings and sympathetic C-flanking peptide of neuropeptide Y endings, could be involved in mechanisms of discogenic pain, disc tissue neurogenic inflammation, tissue repair processes after injury, and control of local blood circulation in the newly formed blood vessels. Disc cells may be directly affected by the neuropeptides released from nearby nerve terminals.

[Morphogenetic potential of the communication systems in breast dysplasia and fibroadenoma]

The results of this study indicate participation of the adrenergic vegetative neural terminals (VNT) in the stroma formation due to indirect influence on the vascular structures. The involvement of the immunocompetent cells in these processes is not denied. Moreover, the determining role of VNT of the adrenergic part in the development of dysplasia can be suggested. The peculiar direction of the stroma formation in fibroadenoma and "autonomization" of this process from VNT and immunocompetent cells influence is revealed.

Effect of chronic toluene exposure on tyrosine hydroxylase-positive nerve elements in the rat forebrain: an immunohistochemical study combined with semiquantitative morphometric analysis

The effects of chronic toluene exposure [3000 p.p.m. for 4 h (09:00-11:00, 13:00-15:00)] every day for 3 weeks on immunoreactivity for tyrosine hydroxylase (TH), the rate limiting enzyme of catecholamine synthesis, in the rat forebrain were studied. In toluene-exposed rats, increases in both number and intensity of TH-immunoreactive fibres and terminals were observed in most parts of the forebrain including the cerebral cortex, hippocampus, lateral septal nucleus and hypothalamus, compared with control rats. These findings suggest that chronic toluene exposure might influence catecholaminergic neural systems.

Neural system of the human posterior cruciate ligament in osteoarthritis

The purpose of this study was to quantify the neural elements in a group of posterior cruciate ligaments from osteoarthritic patients in comparison with normal subjects. Nine ligaments obtained from total knee arthroplasty procedures and five control ligaments from amputated limbs or fresh cadavers were stained with gold chloride. The percentage area occupied by the receptors and the neural network was determined by means of a computer-assisted image analyzer. A significant reduction of the neural elements was observed in the group of ligaments from osteoarthritic patients (0.44 +/- 0.132 SEM vs 0.958 +/- 0.13 SEM, P = .001). The loss of mechanoceptors and the consequent reduction of neural afferences may reduce the functional stability of the joint, participating in the osteoarthritic degenerative process.

The pars defect as a pain source. A histologic study

STUDY DESIGN

Tissue from the pars defects of six adult patients with symptomatic spondylolysis and spondylolisthesis was obtained at surgery. A histologic study was conducted to identify and characterize neural elements in this tissue.

OBJECTIVES

To determine if nociceptive nerve endings were present within the pars defect of patients with symptomatic spondylolysis.

SUMMARY OF BACKGROUND DATA

The origin of back pain in patients with spondylolysis remains uncertain. The defect in the pars interarticularis has been implicated as a possible pain source.

METHODS

The soft tissue from the pars defect was obtained at surgery. A modified gold chloride stain was used to prepare the tissue for histologic examination. Tissue blocks were sectioned and studied under light microscopy.

RESULTS

Neural elements were found in all specimens examined. Free nerve endings believed to have nociceptive function were identified in all specimens. The density of neural elements varied between specimens.

CONCLUSIONS

The finding of neural elements, including free nerve endings within the pars defect tissue, suggests that the pars defect may be a source of back pain in some patients with symptomatic spondylolysis.

Neural mechanisms of lumbar pain

This article discusses neuroanatomic and neurophysiologic bases for low back pain. Evidence for the existence of pain generators in facet, disc, muscle, nerve roots, and dorsal root ganglia are discussed. Mechanisms that may explain the persistence of pain, including neurogenic and non-neurogenic inflammation and central sensitization, are also presented.

3,4-Methylenedioxymethamphetamine ('Ecstasy') promotes the translocation of protein kinase C (PKC): requirement of viable serotonin nerve terminals

The metabolic effects of the neurotoxic, ring-substituted amphetamine 3,4-methylenedioxy-methamphetamine (MDMA or 'Ecstasy') were examined in vivo. In this study, we focused on the ability of MDMA to induce a translocation of the calcium and phospholipid-dependent protein kinase C (PKC) from the cytosol to the cortical plasma membrane. Two injections of MDMA (20 mg/kg; 10 h apart; s.c.) increased the density of membrane bound PKC sites by 48.0% over saline treated animals without mediating a significant change in ligand ([3H]phorbol 12,13 dibutyrate; [3H]PDBu) affinity. Longer drug treatments (8 x 20 mg/kg) induced a lasting (up to 5 days post-treatment) increase in the density of membrane-bound PKC. Prior destruction of cortical 5-HT nerve terminals with p-chloroamphetamine (PCA) prevents this effect and suggests that viable 5-HT uptake sites are essential for MDMA-induced PKC translocation. These results demonstrate that MDMA-induced PKC translocation is mediated by viable cortical 5-HT nerve terminals, and that prolonged kinase activation may contribute to MDMA-induced serotonergic neurotoxicity.

Comparison of surgeries for removal of primary vestibular inputs: a combined anatomical and behavioral study in rats

Unilateral removal of Scarpa's ganglion and neurectomy of the peripheral vestibular nerve branches were compared in rats as methods to eliminate primary vestibular input. Ocular nystagmus was consistently observed after both types of lesion, but it completely disappeared within 4 to 7 days. Imbalance and rotation were more serious and prolonged after ganglionectomy than after peripheral neurectomy. Corresponding with these differences in symptoms were differences in terminal degeneration. After ganglionectomy, degenerated axons and terminals were distributed throughout all terminal regions of primary vestibular fibers on the lesioned side, while after peripheral neurectomy, the degeneration was more limited. The results of this study suggest that vestibular ganglionectomy is a more successful approach than peripheral vestibular neurectomy for removing the primary vestibular input.

Morphological changes of neuromuscular junctions in the dystrophic (dy) mouse: a scanning and transmission electron microscopic study

Neuromuscular junctions in the extensor digitorum longus muscle of control and dystrophic (dy) mice at stages ranging from 30 to 120 postnatal days were examined by scanning and transmission electron microscopy (SEM and TEM). In control mice, the neuromuscular junctions consisted of thin ramifying nerve endings and of complex labyrinthine gutters with a great number of slit-like junctional folds. The subneural apparatuses of dy mice on the 30th and the 60th postnatal days were composed of undeveloped gutters or a number of cup-like depressions containing a few pit-like or slit-like junctional folds. In dystrophic neuromuscular junctions on the 120th postnatal day, subneural apparatuses were classified into two types: one had a cluster of continuous cup-like depressions with or without slit-like junctional folds, and the other consisted of discrete depressions containing slit-like junctional folds. Moreover, a small number of dystrophic muscle fibers were endowed with two subneural apparatuses which were 20 to 30 microns away from each other. Small round pits (0.5-1.0 microns in diameter) in some cup-like depressions were occasionally protruded by short processes of terminal axons. The present findings suggest that the age-dependent postsynaptic structural changes of dystrophic dy mice induce a complex morphological reorganization of presynaptic nerve endings. This might help the nerve endings compensate for the functional deterioration of dystrophic muscle fibers.

[Autonomic nerve endings and their cell microenvironment as one of the integral parts of the stromal component in breast dysplasia and cancer]

The above study is performed in 30 cases of mammary dysplasia (MD) and in 30 cases of mammary carcinoma (MC). "Correlation" bridge between the cell groups was an endothelial cell in the adrenergic zone and lymphocyte in the cholinergic one. A reciprocal influence of the effector part mediators and surrounding stromal cells is thought to influence the structural organization and biological behaviour of MD and MC.

Perivascular microglia in the rat neural lobe engulf magnocellular secretory terminals during osmotic stimulation

The response of microglia in the rat neural lobe to osmotic stimulation has been studied. Microglia were identified by immunoreactivity for the macrophage markers OX-42 and F4/80. The numerical density of microglia did not change significantly with osmotic stimulation but microglia in the perivascular space partially or completely enclosed significantly greater numbers of neurosecretory terminals in osmotically stimulated animals.

Oxygen-free radicals and myocardial nerve fibers endings

Previous data from our laboratory have shown that electrolysis-induced oxygen free radicals (OFR) and ischemia/reperfusion (I/R) injury both produced a significant decrease of myocardial noradrenaline (NA) stocks in the isolated perfused rat heart. Therefore, we carried out the present study by immuno- and fluorescence histochemistry techniques to demonstrate the possibility that fibers nerve endings of the heart may be injured and to evaluate the subsequent damages. Isolated rat hearts were perfused according to the Langendorff technique and subdivided into i) control; ii) electrolyzed (two platinum electrodes, DC current, 10 mA, 1 min); iii) xanthine and xanthine oxidase (X-XO) perfusion for 30 min, and iv) 30 min global ischemia followed by 5 min reperfusion. Results indicate that in the last three groups myocardial fibers were altered. However, in electrolyzed hearts and those submitted to X-XO perfusion, but not in the I/R model, a disruption of many of the nerve fibers could be noted. Thus, NA leakage may be due to a neural injury when OFR are generated exogenously, whereas in the I/R model NA overflow may be explained by a metabolic dysfunction such as the inversion of the uptake I carrier. The major conclusion of this study is that OFR as generated exogenously (by electrolysis or by X-XO) cannot be considered to closely mimic the conditions of I/R injury, at least as concerns neural injury.

Autolysosomes in Alzheimer's disease and their possible role in its pathogenesis. An ultrastructural study

In 10 cases of senile dementia of Alzheimer's type (AD) a systematic post-mortem ultrastructural analysis was performed. Attention was paid mainly to the presence of autolysosomes in the neuropil of the brain cortex. Autolysosomes appeared as osmiophilic dense bodies (DB) which originated in synaptic terminals and peripheral nerve-cell processes. DBs contained sequestrated cellular material wrapped by pinched off, invaginated cell membrane. DB were very frequent also in fields where no senile plaques (SP) and/or nerve-cell processes with paired helical filaments (PHF) were present. Abnormal fermentative degradation of DBs and their possible negative influence on the plasmatic flow in nerve-cell processes is discussed.

Cochlear synaptic development and morphology in a genetically induced type of progressive hair cell degeneration

In mice with genetically induced inner ear abnormalities it is conceivable that in the morphogenetic types and in mutants with the spotting kind of pigmentary anomaly, the genes act through the developing nervous system. It has been suggested that in degenerative (neuroepithelial) mutants the influence of the gene is also reflected in the inner ear through the agency of the nervous system. The jerker mouse belongs to the neuroepithelial type of mutants which in homozygotes results in early postnatal degeneration of the sensory epithelium of the inner ear, initially confined to the cuticular plate and the stereocilia. In spite of well-advanced hair cell degeneration, these mutants developed morphologically normal afferent and efferent nerve terminals at cochlear hair cells.

Abnormal distribution of nerve terminals in infantile hypertrophic pyloric stenosis

Smooth muscle biopsy specimens obtained from nine infants with infantile hypertrophic pyloric stenosis (IHPS) and from three controls were studied immunohistochemically with respect to the distribution of nerve terminals and neurofilaments. To label nerve terminals and neurofilaments, monoclonal antibodies (MAb) 171B5 and 2F11 were used, respectively. In all specimens of the control group, nerve terminals were numerous in both the myenteric plexus and the muscle layer. There were abundant neurofilaments in the myenteric plexus and a moderate number in the muscle layer. In all specimens of the IHPS group, the density of nerve terminals and neurofilaments was reduced in the muscle layer. In the myenteric plexus, there was no such reduction. The results indicate poor neuronal innervation of the muscle layer in the pylorus of infants with IHPS. This poor innervation may be related to the pathogenesis of pyloric stenosis and hypertrophy.

Dopamine terminal loss and onset of motor symptoms in MPTP-treated monkeys: a positron emission tomography study with 11C-CFT

We studied the time course of dopamine (DA) terminal loss in three macaca fascicularis injected with MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) intravenously every 10-14 days for up to 389 days. Striatal DA terminal loss was monitored in vivo by positron emission tomography using 11C-CFT (WIN 35,428), a cocaine derivative that labels the DA transporter. The 11C-CFT uptake rate constant in the striatum of MPTP-treated monkeys decreased exponentially over time, with the putamen significantly more affected than the caudate. Spontaneous locomotor activity decreased in parallel with the decline of the 11C-CFT uptake rate; however, overt parkinsonian signs appeared only after the 11C-CFT uptake rate had declined to about 30% of the pretreatment values. We conclude that a long-term intermittent mode of administration of MPTP can lead to a pattern of terminal loss that closely resembles idiopathic Parkinson disease.

[The treatment of biological material by Falck's method and its modifications using a device of original design]

Automation of the process of detecting adrenergic nerve structures helped obtain reliable positive results even in cases with low mediator concentration in body tissues. We have elaborated a new method of subsequent staining and microphotographing of biological specimens which permit registration of specific features of adrenergic nerve terminals histologic architecture and their cellular microenvironment.

[Neurohistological studies in allogeneic cruciate ligament transplants as intra-articular ligament replacement]

A multiplicity of surgical operations have been developed in an attempt to achieve satisfactory function after ACL repair. None of these procedures have been able to duplicate the fiber organization, attachment site anatomy, vascularity, or function of the ACL. 18 foxhounds received a deep frozen bone-ACL-bone allograft and a ligament augmentation device (LAD). Neurohistological changes were evaluated 3, 6, and 12 months following implantation. Modified silver impregnation method and gold chloride technique were used to examine the presence of nerve endings and axons. Two morphological distinct mechanoreceptors were identified, and then were categorized as follows: free nerve-endings golgi-like tendon receptors. Fine nerve endings were frequently ramified freely into ligament collagen bundles. Nerves and blood vessels were commonly associated. Like in normal ACL's both neuroreceptors were mostly located near the surface of the allografts and at both bony attachments. This study demonstrated the first histological evidence of viable mechanoreceptors and free nerve-endings in transplanted ACL-allografts, not previously reported in other ACL-substitutes using for ACL-reconstruction. Particularly important for post-op. rehabilitation, this technique may allow to reconstruct the proprioreceptive functions of normal anterior cruciate ligaments.

[The juxta-oral organ (Chievitz organ)--a sensory organ in the bucco-temporal area?]

Samples of a juxtaoral organ were examined immunohistochemically with antibodies against light-chain cytokeratin (KL-1), cytokeratin 19, desmin, chromogranin, neuron-specific enolase, and S-100 protein. The epithelial cells were found to be immunoreactive only with the two cytokeratin antibodies. Transmission electron microscopy was also performed. The results are best compatible with a mechanoreceptor function of the organ.

Damage to cochlear efferents following AF64A intoxication

Damage to cochlear efferents in chinchillas was assessed using transmission electron microscopy following unilateral treatment with the cholinotoxin ethylcholine mustard aziridinium ion (AF64A). AF64A was diluted in artificial perilymph to concentrations ranging from 0.5 to 100 microM. Survival times ranged from 1 to 12 weeks. At concentrations above 10 microM, widespread damage was noted to efferent fibers within the inner spiral bundle (ISB), tunnel spiral bundle (TSB), tunnel radial fibers (TRF) and efferent terminals at the base of OHCs. This damage included degeneration of fibers and terminals, delamination of mitochondria, vacuolization, and loss of cell membrane. However, at high concentrations, non-specific damage was also noted as thinnings or discontinuities of the membrane of OHCs and afferent fibers. At concentrations between 3 and 10 microM, selective damage was observed to efferent fibers within the ISB, TSB, TRF, and to terminals at the base of the OHCs, with all other structures appearing normal. At concentrations of 0.5 and 1 microM, damage was limited to efferent fibers within the TSB and ISB below the inner hair cells. In general, insult was greatest to middle- and basal-turn efferents, and longer survival times did not produce greater damage to, or loss of, efferents. These data suggest that at low concentrations, AF64A produces a partial yet selective degeneration of cochlear efferents within both the medial and lateral tracts, and that at the lowest concentrations used in these studies, AF64A produces a preferential insult on lateral olivocochlear efferents.

Immunohistochemical studies on neurofilamentous hypertrophy in degenerating retinal terminals of the olivary pretectal nucleus in the rat

Following section of the optic nerve, degenerating retinal terminals reveal an accumulation of neurofilaments (neurofilamentous hypertrophy) as demonstrated by silver impregnation techniques or electron microscopy. The present study examined degenerating retinal terminals by means of immunohistochemistry and antibodies specific for the triplet of neurofilament proteins of low (NF-L), medium (NF-M), and high (NF-H) molecular weight class. Following unilateral optic nerve section in the rat and survival of 1, 2, 4, 8, and 21 days, brains were perfused with aldehyde fixative, sliced on a vibratome and stained for neurofilaments by using the peroxidase-antiperoxidase technique. Other brains were frozen, cut in the native state, and slide-mounted sections were fixed by acetone. Side comparisons in visual pathways were made in frontal sections, taking advantage of the near complete crossing of retinal fibers in the rat. Anterograde degeneration of axons occurred in the optic tract and branchium colliculi. Changes of terminals were investigated in the olivary pretectal nucleus, which contains a dense aggregation of retinal terminals in the core region. The optic tract and branchium colliculi showed a reduction in immunostaining for neurofilament proteins following axotomy. Within the core region of the olivary pretectal nucleus, strong increases of immunoreactivity of NF-L and NF-M were detected beginning at 2 days postlesion and persisting at 8 days. No changes in NF-H proteins were found in the terminal regions with three different antibody probes. The increase in immunostaining reflects the accumulation of neurofilament proteins in the degenerating retinal terminals, i.e., neurofilamentous hypertrophy.(ABSTRACT TRUNCATED AT 250 WORDS)