Shoichi Sasaki

15-Deoxy-Δ12,14-prostaglandin J2: The endogenous electrophile that induces neuronal apoptosis

Prostaglandin D2 (PGD2), a major cyclooxygenase product in a variety of tissues and cells, readily undergoes dehydration to yield the bioactive cyclopentenone-type PGs of the J2-series, such as 15-deoxy-Δ12,14-PGJ2 (15d-PGJ2). The observation that the level of 15d-PGJ2 increased in the tissue cells from patients with sporadic amyotrophic lateral sclerosis suggested that the formation of 15d-PGJ2 may be closely associated with neuronal cell death during chronic inflammatory processes. In vitro experiments using SH-SY5Y human neuroblastoma cells revealed that 15d-PGJ2 induced apoptotic cell death. An oligonucleotide microarray analysis demonstrated that, in addition to the heat shock-responsive and redox-responsive genes, the p53-responsive genes, such as gadd45, cyclin G1, and cathepsin D, were significantly up-regulated in the cells treated with 15d-PGJ2. Indeed, the 15d-PGJ2 induced accumulation and phosphorylation of p53, which was accompanied by a preferential redistribution of the p53 protein in the nuclei of the cells and by a time-dependent increase in p53 DNA binding activity, suggesting that p53 accumulated in response to the treatment with 15d-PGJ2 was functional. The 15d-PGJ2-induced accumulation of p53 resulted in the activation of a death-inducing caspase cascade mediated by Fas and the Fas ligand.

Sporadic amyotrophic lateral sclerosis with extensive neurological involvement

SummaryWe report an autopsy case of respirator-assisted long-survival sporadic amyotrophic lateral sclerosis (ALS) with extensive involvement extending beyond the motor system. The involved areas included the globus pallidus, subthalamic nucleus, red nucleus, substantia nigra, Clarkes column, intermediolateral nucleos, Onufs (Onufrowicz) nucleus, middle root zone of the posterior column, and the spinocerebellar tract. There was no impairment of ocular movements. Such sporadic ALS cases with extensive involvement extending beyond the motor system may constitute a distinct subgroup of this disease that differs from long-survival ALS (with or without respirator support) in which only the motor system is affected.

Excitatory amino acid transporter 1 and 2 immunoreactivity in the spinal cord in amyotrophic lateral sclerosis.

Abstract The spinal cord of 20 patients with amyotrophic lateral sclerosis (ALS) and 5 patients with lower motor neuron disease (LMND) were investigated immunohistochemically using anti-human excitatory amino acid transporter 1 (EAAT1) and EAAT2 antibodies which are the astrocytic transporters. The purpose of the study was to examine relationships between EAAT1 and EAAT2 immunoreactivity and degeneration of anterior horn neurons. Specimens from 20 patients without any neurological disease served as controls. In controls, spinal cord gray matter was densely immunostained by antibodies, whereas the white matter was generally not immunostained. In motor neuron disease (MND) patients, EAAT1 immunoreactivity was relatively well preserved in the gray matter despite neuronal loss of anterior horn cells. On the other hand, EAAT2 immunoreactivity in anterior horns correlated with the degree of neuronal loss of anterior horn cells: in the patients with mild neuronal depletion, anterior horns were densely immunostained by the antibody, whereas in the patients with severe neuronal loss, EAAT2 expression was markedly reduced. Degenerated anterior horn cells frequently showed a much denser EAAT1 and EAAT2 immunoreactivity around the surface of the neurons and their neuronal processes than that observed in normal-appearing neurons. There was no difference in the expression of EAAT1 and EAAT2 immunoreactivity between LMND and ALS patients. These findings suggest that in the early stage of degeneration of anterior horn cells, EAAT1 and EAAT2 immunoreactivity is preserved in the astrocytic foot directly attached to normal-appearing neurons, whereas levels of EAAT1 and EAAT2 protein rather increase in the astrocytic foot directly attached to degenerated anterior horn neurons; the latter effect most probably reduces the elevated glutamate level, compensates for the reduced function of astroglial glutamate transporters, or represents a condensation of EAAT1 and EAAT2 immunoreactivity secondary to loss of neurites and greater condensation of astrocytic processes. Thus, we demonstrate a difference in EAAT1 and EAAT2 immunoreactivity in different stages of progression in ALS, as a feature of the pathomechanism of this disease.

Dendritic synapses of anterior horn neurons in amyotrophic lateral sclerosis: an ultrastructural study

Abstract This ultrastructural study deals with the synapses of primary dendrites of the anterior horn neurons in the lower lumbar spinal cords of seven patients with amyotrophic lateral sclerosis (ALS) who had mild neuronal depletion. Specimens from seven age-matched, neurologically normal individuals served as controls. In each instance, the autopsy was performed within 6 h after death. Our results indicate a statistically significant increase in degenerative changes in the dendrite presynapses of normal-appearing neurons of the ALS patients. The alterations included aggregation of electron-dense synaptic vesicles and dark mitochondria with dense cristae, and bundles of neurofilaments. However, we found no significant difference between controls and patients with respect to cross-sectional area and length of the dendrites, number of synapses per dendrite, and lengths of individual synapses and their active zones in the normal-appearing neurons, even though the patients neurons had a smaller cross-sectional area. In chromatolytic neurons, the number of synapses and the length of the active zone of the primary dendrites were significantly diminished. These findings suggest that despite degenerative changes of the presynapses, the synapses in the primary dendrites of the anterior horn neurons are preserved at the early stage of ALS. The preservation of these synapses may be due to their relative resistance to degenerative processes, or may represent a compensatory mechanism of the synapses for diminished synaptic function in distal dendrites.

Sporadic motor neuron disease with Lewy body-like hyaline inclusions

SummaryLewy body-like hyaline inclusions were immunocytochemically and electron microscopically investigated in a patient with sporadic motor neuron disease. The hyaline inclusions were chiefly observed within the perikarya of both normal-looking and chromatolytic anterior horn cells in the lumbar spinal cord, but some were detected in the axons and dendrites. Usually, a single inclusion was found in the perikaryon, but in rare cases two or more were observed. Immunocytochemically, these inclusions were intensely immunostained with anti-ubiquitin anti-body. Ultrastructurally, the hyaline inclusions were chiefly composed of randomly arranged linear structures associated with ribosome-like granules, varying from compactly arranged linear densities to more loosely packed ones. They contained scattered vesicles of various sizes and occasionally a focal accumulation of randomly arranged 10-nm neurofilaments or 13–25-nm filamentous structures.

TRPM8-expressing dorsal root ganglion neurons project dichotomizing axons to both skin and bladder in rats.

To reveal the mechanism of urinary urgency evoked by cold sensation, we investigated the convergence of the primary sensory afferents of the skin and bladder. Dichotomizing afferents of L6–S1 dorsal root ganglion neurons that innervate the skin and bladder was constantly observed with retrograde neuron tracers in rats. In-situ hybridization revealed that approximately 8.0% of the double-labelled cells expressed transient receptor potential channel melastatin member 8 (TRPM8) transcripts in the dorsal root ganglions. Cold and menthol stimuli to the skin generated bladder nerve responses conducted through dichotomizing axons, which significantly decreased in the presence of the TRPM8 blocker BCTC. Taken together, TRPM8-expressing sensory neurons with dichotomizing axons projecting to the skin and bladder may be responsible for the urinary urgency evoked by cold sensation.

EAAT1 and EAAT2 immunoreactivity in transgenic mice with a G93A mutant SOD1 gene.

Immunocytochemical and quantitative analyses were used to correlate the localisation of excitatory amino acid transporter proteins EAAT1, EAAT2 with time in spinal motoneurones of presymptomatic and symptomatic mice with the G93A mutant SOD1 gene. Specimens from age-matched non-transgenic wild-type mice served as controls. EAAT1 and EAAT2 immunoreactivity was well-preserved in the gray matter in both controls and transgenic mice at all ages, and there was no difference in the expression of EAAT1 and EAAT2 immunoreactivity between controls and transgenic mice. These findings suggest that EAAT1 and EAAT2 may not play a pivotal role in the degeneration of motoneurons in this animal model.

Slow component of axonal transport is impaired in the proximal axon of transgenic mice with a G93A mutant SOD1 gene

The purpose of this study was to determine whether slow axonal transport of neurofilaments (NFs) is impaired in the spinal cord of G93A Cu/Zn superoxide dismutase (SOD1) mutant transgenic mice expressing a relatively low mutant protein (gene copy 10) and, if so, how the impairment occurs in this animal model. Transgenic mice were killed at the ages of 24, 28 and 32xa0weeks, and the cervical and lumbar spinal cords were examined under an electron microscope. Age-matched non-transgenic wild-type mice served as controls. At 24xa0weeks (early presymptomatic stage), anterior horn cells were well preserved. The earliest morphological changes were mild vacuolar changes in the neuronal processes, particularly in proximal axons. At 28xa0weeks (late presymptomatic stage), mild neuronal loss of anterior horn neurons was observed. Vacuolar changes were more prominent in the proximal axons, including swollen axons (spheroids) and neuropils of the anterior horns. Vacuoles in the axons were frequently large enough to occupy almost the entire axonal caliber. The anterior roots were degenerative, showing vacuolar changes and myelin ovoids. Lewy body-like inclusions (LIs) consisting of filaments thicker than NFs (about 1.5 times larger in diameter) were frequently demonstrated in the neuronal processes including swollen axons (spheroids) and occasionally in the somata. At 32xa0weeks (symptomatic stage), the anterior horns showed a moderate to severe neuronal loss accompanied by prominent astrogliosis. Cord-like swollen axons consisting of accumulated NFs and many neurofilamentous accumulations were frequently observed in the anterior horn. Vacuolar changes were less prominent or disappeared in the neuropils of the anterior horns and the anterior roots, whereas LIs were frequently demonstrated within the neuronal processes including the cord-like swollen axons. In the anterior roots, degenerative changes such as marked fiber loss and frequent myelin ovoids were remarkable. No accumulation of NFs or mitochondrial vacuolation was detected in somata or proximal dendrites at any stage. These findings suggest that the slow component of axonal transport in the proximal axons is impaired at an early stage in this transgenic mouse model, and that the impairment is probably caused by a mechanical impediment of NFs, or by the accumulation of NFs in the proximal axon, as a result of the obstruction of the axonal flow that initially occurs by vacuolar changes, and is later exacerbated by accumulation of LIs.

Erratum to: Immunohistochemical and ultrastructural study of basophilic inclusions in adult-onset motor neuron disease

We immunohistochemically and ultrastructurally studied basophilic inclusions (BI) in a patient with adult-onset sporadic motor neuron disease (MND). BI were frequently observed not only in degenerated anterior horn cells, such as central chromatolytic neurons, but also in normal-appearing large anterior horn neurons. They had various shapes, round, elliptical or irregular, and occasionally they had distinct basophilic rims. They also varied in size. There were no halos around them nor core in their centers. Immunohistochemically, some BI were immunostained for ubiquitin or SOD1, but BI were not immunoreactive with anti-phosphorylated neurofilament (SMI 31), phosphorylated tau, cystatin C or Golgi (MG-160) antibodies. Ubiquitin-positive skein-like inclusions (SI) were occasionally observed in the somata of anterior horn neurons. Ultrastructurally, BI consisted of filamentous structures associated with granules, which were attached to thick filaments. The thick filaments were straight without constriction or side arms and their diameter was twice that of the neurofilaments. BI occasionally contained tubular structures among the granule-associated filaments. The granulo-filamentous profiles varied from being compactly arranged to being more loosely packed. The structure of BI resembles that of the Lewy body-like hyaline inclusions (LBHI) observed in sporadic MND patients. Bundles of filaments resembling SI, which were composed of compactly packed filaments without fine granules running parallel to the longitudinal axis, were frequently observed inside or at the periphery of BI, and occasionally clustered in the perikarya. Each filament measured approximately 15–25 nm in diameter, and a bundle of these grouped filaments was sometimes surrounded by a unit membrane. We also occasionally observed in-between structures of BI and bundles of filaments resembling SI. These findings suggest a certain relationship between BI, SI and LBHI in the pathomechanism of BI development. Further studies are needed to elucidate whether sporadic adult-onset MND characterized by BI forms a different subtype of MND.

AN AUTOPSY CASE OF HUMAN T LYMPHOTROPIC VIRUS TYPE I-ASSOCIATED MYELOPATHY(HAM) WITH A DURATION OF 28 YEARS

SummaryAn autopsy case of human T lymphotropic virus I-associated myelopathy (HAM) of a duration of 28 years in a 61-year-old man with serological confirmation of HTLV-I infection was reported. The spinal cord was grossly atrophic. There was severe symmetrical degeneration of the lateral funiculi, particularly of the bilateral pyramidal tracts, involving all levels of the spinal cord, but anterior horn cells were relatively well preserved. In the most severely damaged middle and lower thoracic segments, the white matter degeneration also involved the anterior funiculi. In the degenerated white matter, both the myelin and axons were equally lost and had been replaced by glial scars. Marked adventitial fibrosis was commonly seen in small parenchymal vessls in both the white and gray matter. Although there was no evidence of inflammation in the spinal cord, mild lymphocytic infiltration was occasionally observed in the subarachnoid and perivascular spaces in the brain stem, cerebellum and cerebrum. This case was considered as a burnt-out case of HAM.