Neurono-glial changes in the cerebral cortex of animals exposed to white noise

The rat acoustic cortex has been studied at light optic and ultrastructural levels under the white noise stimulation. After the noise stimulation for 7 days, micropunctate hemorrhages, proliferation and hypertrophy in cells of microglia and astrocytic glia are noted. After the noise stimulation for 21 days, the neuroglial reaction becomes less pronounced, there are no hemorrhages, a great amount of neurons with peripheral and total chromatolysis appear. In other neurons, as well as in all types of neuroglia the number of primary lysosomes increases, their structure changes. In lysosomes lipofuscin and lipid drops are accumulating, many of lysosomes turning into multivesicular bodies. The destructive changes observed in the neurons and neuroglia underlie prolonged disturbances in the higher neural activity after the noise stimulation is stopped.     

Cell to cell transfer of dense bodies induced by intracisternal infusion of leupeptin in rat cerebellum--quantitative and ultrastructural studies

Previous studies have demonstrated that rats treated with a proteinase inhibitor, leupeptin (Leu), show an accumulation of lipofuscin (Lf)-like dense bodies in the neurons. The present study examines the quantitative and ultrastructural changes in the Lf-like dense bodies of Purkinje (P) cells and Bergmann (B) glia over 20 days following a 4-day regimen of Leu administration by intracisternal infusion. Toluidine blue staining revealed considerable Lf-like granules in both types of cells 1 day after Leu infusion. However, these granules had almost disappeared by 20 days after infusion. Quantitative analysis revealed a decrease in the amount of accumulated Lf-like granules in P cells whereas the granules in B glia increased 10 days after Leu infusion. Electron microscopic examination revealed the presence of Lf-like dense bodies on the plasma membranes of both the P cells and B glia. The present results suggest that Leu-induced dense bodies in P cells are transferred to B glia, indicating a possible route for the removal of Lf.     

Impairment of fast axonal transport in the proximal axons of anterior horn neurons in amyotrophic lateral sclerosis

We studied the possible impairment of fast axonal transport in patients with amyotrophic lateral sclerosis (ALS) to gain some insight into the pathogenesis of the disease. We carried out an ultrastructural investigation of the proximal axons (axon hillock and initial segment) of the anterior horn neurons on samples from 11 ALS patients; specimens from 12 age-matched individuals who died of nonneurological diseases served as controls. Eighty-seven proximal axons that emanated directly from normal-appearing neurons were examined in each group of subjects. Increased smooth endoplasmic reticulum (SER) and the formation of bundles of fibrillary SER with a single unit membrane were not uncommonly observed in the initial segment of the patients with ALS. In some instances, there was loss of the parallel SER arrangement along the longitudinal axis. When viewed in transverse sections, the bundles had a tubular appearance. These morphologic changes of SER were exclusively demonstrated in patients with ALS. A marked increase or accumulation of mitochondria and lysosomes was more common in the proximal axons, particularly in the axon hillock, of ALS patients than of control subjects. The accumulation of these membrane-bounded cytoplasmic organelles suggests that fast axonal transport is impaired in the proximal axons of individuals with ALS. In addition, there were Lewy body-like hyaline inclusions, lipofuscin granules, and multiple membranous structures in the proximal axons. The presence of these unusual structures may also be a reflection of axonal transport dysfunction. By contrast, in the central chromatolytic neurons, there was not only a decrease in the number of neurofilaments in the axon hillock and initial segment, but also of mitochondria, lysosomes, and SER. In some instances, none of these cytoplasmic organelles was seen. These findings support the notion that the outflow of cytoplasmic constituents from the anterior horn cell body into the proximal axon may be impaired in central chromatolytic neurons.     

Successful adoptive immunotherapy for relapse of AML 9 years after T-cell-depleted BMT

Specific causes for Lhermitte's sign (LS) in cancer patients are spinal cord compression, radiation therapy to the spinal cord, and cisplatin chemotherapy. We observed a transient LS in five of 87 patients treated with more than two cycles of 100 mg/m2 docetaxel (Taxotere). LS developed either concurrently or after the onset of docetaxel-induced sensory neuropathy, and disappeared after the discontinuation or dose reduction of chemotherapy.     

Ultrastructural localization of complement membrane attack complex (MAC)-like immunoreactivity in brains of patients with Alzheimer's disease

The membrane attack complex (MAC) of complement, also known as C5b-9, was localized in Alzheimer's disease (AD) brain by immunoelectron microscopy using a monoclonal antibody to a neoantigenic epitope of soluble C5b-9 (SC5b-9). Immunopositivity was detected in association with lamellated bodies in the neuronal cytoplasm, lipofuscin granules, lysosomes and neurofibrillary tangles (NFTs). Such intracellular localization of MAC-like immunoreactive (MAC-LI) staining suggests that neurons remove membrane-inserted MAC fragments by endocytosis. These endocytosed membrane fragments then proceed by retrograde transport to the perikaryon for lysosomal degradation. Attachment to the abnormal cytoskeletal proteins found in neurofibrillary tangles also occurs. The results provide further evidence that complement-mediated injury of neurons plays a part in the pathophysiology of AD.     

Age-induced hypertrophy of astrocytes in rat supraoptic nucleus: a cytological, morphometric, and immunocytochemical study

BACKGROUND: In the adult rat, neuron-astroglia interactions in the supraoptic nucleus (SON) are characterized by the structural and functional plasticity of astrocytes in response to several physiological and experimental conditions. This study has analyzed the plasticity of the supraoptic nucleus astrocytes in response to the age-induced changes in neuronal activity. METHODS: The study was performed in 5-, 12-, 18- and 24-month-old rats. The cytology and organization of astrocytes in the SON were examined using glial fibrillary acidic and vimentin immunocytochemistry and ultrastructural and morphometric analysis. RESULTS: No significant age-related variations in the total number of neurons and astrocytes in the SON were detected, although a few degenerating neurons were found in old rats. An age-dependent increase in GFAP immunoreactivity was observed at the ventral glial lamina, perivascularly and between neuronal perikarya. Vimentin overexpression was also detected in ventral lamina astrocytes with advancing age. At the cell nucleus level, we observed an age-associated increase in nuclear size and in the number of coiled bodies, nuclear bodies, and "cleared" nucleoplasmic areas, as well as changes in the nucleolar organization. At the cytoplasmic level, characteristic ultrastructural features in astrocytes of old rats were the hypertrophy of intermediate filament bundles and the formation of an extensive network of Golgi stacks interlinked by tubulovesicular elements. Glial filaments were often associated with the nuclear envelope and polyribosomes. CONCLUSIONS: The increased GFAP and vimentin immunoreactivity and the morphometric and cytological changes in rat SON astrocytes may reflect a sustained upregulation of cellular activity with age, resulting in hypertrophy of glial perikarya and cell processes. Several factors that are known to influence the expression of the astrocytic phenotype, such as signals produced by degenerating neurons and activated microglia, as well as variations in neuronal activity are considered possible causes of the age-associated changes in SON astrocytes.     

Lumbar motor neuron size and number is affected by age in male F344 rats

Motor neurons in the spinal cord of old rats appear similar in size but less numerous compared with those in mature rats; they also contain a large amount of lipofuscin, the lipid peroxidation by-product whose function is largely unknown. The object of this study was to morphometrically characterize motor neurons found in the L4/L5 lumbar spinal cord of mature (6-month) and old (22-month) rats. Paraformaldehyde-fixed, lumbar spinal cords from six rats at each age were embedded in paraffin, sectioned at 6 microm and stained with 0.1% toluidine blue. The nucleolar diameter and area from a minimum of 34 motor neurons per spinal cord were measured. Motor neuron number was calculated using Abercrombie's (Abercrombie, 1946) formula after correcting for tissue shrinkage. Motor neuron number was decreased with age while the neuronal area increased with age. Nucleolar diameter also increased in old rats. Frequency distributions of motor neuron area revealed unimodal distributions of motor neurons rats of both ages. We suggest that larger nucleolar diameter reflects more metabolically active neurons in old rats while larger neuron area is a reflection of the presence of lipofuscin in old motor neurons.     

Influence of fasting and stimulation on the rat gastric endocrine cells. Histochemical and ultrastructural study

The ultrastructure and certain cytochemical parameters of endocrine cells of the rat gastric mucosa during 168 h of fasting were investigated. To some of the fasting animals peroral food or alcohol was administered before decapitation. The EC (enterochromaffin cells) the ECL (enterochromaffin-like cells), D1 cells, AL (A-like cells) and G cells were identified by means of electron microscopy. Only the EC, ECL, and G cells could be identified by means of light microscopy by an adequate histochemical technique. The ultrastructural picture of the ECL and of the EC cells did not change markedly during the fasting. In the D1 cells there occurred an agglomeration of secretory granules. Some of them disintegrated and disappeared. In the AL cells an agglomeration of granules during the fasting was also observed. Granules engulfed in lysosomes were often found. The participation of lysosomes in the degradation of granules during the fasting was more marked in the AL cells than in the G cells. The participation of lysosomes was questionable in the EC and D1 cells, and in the ECL cells no lysosomes were observed. In contradistinction to the G cells of the non-fasting animals, where more than one half of the gastrin granules were "empty", the G cells during the fasting were filled with agglomerated dense granules and contained lysosomes with fragments of engulfed secretory granules. Following the administration of food (Larsen's diet) 3 h before sacrificing the dissolution of the content of granules with well preserved membranes was observed (emiocytosis did not take place). The administration of food did not lead to changes in the ultrastructural appearance of the EC cells. The peroral administration of alcohol did not lead to any changes in the ultrastructural appearance of the AL and G cells.     

Localization and seizure-regulation of integrin beta 1 mRNA in adult rat brain

Lipofuscin (age pigment) is a brown-yellow, electron-dense, autofluorescent material that accumulates progressively over time in lysosomes of postmitotic cells, such as neurons and cardiac myocytes. The exact mechanisms behind this accumulation are still unclear. This review outlines the present knowledge of age pigment formation, and considers possible mechanisms responsible for the increase of lipofuscin with age. Numerous studies indicate that the formation of lipofuscin is due to the oxidative alteration of macromolecules by oxygen-derived free radicals generated in reactions catalyzed by redox-active iron of low molecular weight. Two principal explanations for the increase of lipofuscin with age have been suggested. The first one is based on the notion that lipofuscin is not totally eliminated (either by degradation or exocytosis) even at young age, and, thus, accumulates in postmitotic cells as a function of time. Since oxidative reactions are obligatory for life, they would act as age-independent enhancers of lipofuscin accumulation, as well as of many other manifestations of senescence. The second explanation is that the increase of lipofuscin is an effect of aging, caused by an age-related enhancement of autophagocytosis, a decline in intralysosomal degradation, and/or a decrease in exocytosis.     

Effects of reserpine on ECL-cell ultrastructure and histamine compartmentalization in the rat stomach

The histamine-storing ECL cells in the stomach play a key role in the control of acid secretion. They contain granules, secretory vesicles and microvesicles, and sustained gastrin stimulation results in the additional formation of vacuoles and lipofuscin bodies. The cells are rich in the vesicle monoamine transporter type-2 (VMAT-2), which can be inhibited by reserpine. The present study examines the effect of reserpine on ECL-cell ultrastructure and histamine compartmentalization. Rats received reserpine and/or gastrin. Reserpine was given twice by the intraperitoneal route (25 mg/kg once daily). Gastrin-17 was given by subcutaneous infusion (5 nmol/kg/h), starting at the time of the first reserpine injection and continuing for 4 days when the rats were killed. At this stage, histamine in the oxyntic mucosa was unaffected by reserpine but elevated by gastrin. Immunocytochemical analysis (confocal microscopy) showed ECL-cell histamine in control and gastrin-treated rats to be localized in cytoplasmic organelles (e.g., secretory vesicles). After treatment with reserpine alone or reserpine+gastrin, ECL-cell histamine occurred mainly in the cytosol. Planimetric analysis (electron microscopy) of ECL cells showed reserpine to increase the number, size and volume density of the granules and to reduce the size and volume density of the secretory vesicles. Gastrin reduced the number and volume density of granules and secretory vesicles, increased the number and volume density of microvesicles and caused vacuoles and lipofuscin bodies to appear. Reserpine+gastrin increased the number, volume density and size of the granules. Reserpine prevented the effects of gastrin on secretory vesicles, vacuoles and microvesicles, but did not prevent the development of lipofuscin. Our findings are in line with the views: (1) that preformed cytosolic histamine is taken up by granules/secretory vesicles via VMAT-2, that histamine is instrumental in the transformation of granules into secretory vesicles and in their consequent enlargement and (2) that vacuoles are formed by the fusion of large secretory vesicles.     

NT-3, but not BDNF, prevents atrophy and death of axotomized spinal cord projection neurons

Following spinal cord injury, projection neurons are frequently axotomized and many of the cells subsequently die. One goal in spinal injury research is to preserve damaged neurons so that ultimately they are accessible to regeneration-promoting strategies. Here we ask if neurotrophin treatment can prevent atrophy and death of axotomized sensory projection neurons. In adult rats, a hemisection was made in the thoracic spinal cord and axotomized neurons were retrogradely labelled with Fluoro-Gold. Four distinct populations of cells were identified in the lumbar spinal cord, and both numbers and sizes of labelled cells were assessed at different time points postlesion. A progressive and significant degeneration was observed over time with severe atrophy apparent in all cell populations and significant cell loss evident by 4 weeks postlesion. This time point was used to assess neurotrophin effects. Hemisected rats were treated with either neurotrophin 3 (NT-3) or brain-derived neurotrophic factor (BDNF, 12 microg/day for each), or a vehicle solution, delivered continuously to the lesion site via an osmotic minipump. Treatment with NT-3, but not BDNF, completely reversed cell atrophy in three of the four cell populations and also induced a significant increase in the number of surviving cells. In situ hybridization experiments showed trkB and trkC mRNA to be expressed in the majority of ascending spinal projection neurons, suggesting that these cells should be responsive to both BDNF and NT-3. However, only NT-3 treatment was neuroprotective, indicating that BDNF may not have reached the cell bodies of injured neurons. These results demonstrate that NT-3 may be of benefit in preventing the secondary cell loss that occurs following spinal injury.     

The influence of tail biting on performance of fattening pigs

The substantia nigra of gestation day 14 was transplanted into the striatum of 3-4-month-old rats to investigate the transplants ultrastructurally at the end of 2 years, as a follow-up to our previous studies. Transplants were of small size in all 10 specimens taken for this study. The changes observed in the transplant and in the interface region with the host striatum were: thickening of the blood vessel walls, perivascular cuffing with lymphocytes and macrophages loaded with tissue debris, degenerating neurons and hypertrophied astroglia containing dense granules indicating ageing or reaction to degeneration and glial processes. The number of surviving neurons in the transplants was small. These were smaller in size and had very few intracytoplasmic membraneous organelles. A higher content of intracytoplasmic ageing lipofuscin pigment was present than in host neurons and age-matched nigral neurons. Synapses were few, and their number varied among transplants. Generally, the synapses were at the interface with the host tissue. The changes observed in all the 2-year-old transplants suggest premature ageing or a slow rejection process. Slow rejection is a possibility, because these rats are only stock-bred, not inbred, and hence they are not completely immunologically compatible.     

Ultrastructural studies on the endogenous development of eimeria brunetti. III. Macrogametogony and the macrogamete

The ultrastructural changes occurring during macrogametogony in Eimeria brunetti were studied in tissue from the small intestine of infected young domestic fowls. As the macrogametocyte developed, an increase in the volume of the cytoplasm and the nucleus occurred. At this early stage of development the organism was limited by a single unit membrane which possessed a number of micropores. The organism was situated in a parasitophorous vacuole which contained intra-vacuolar folds and intra-vacuolar tubules. The wall forming bodies of type II (WFB II) started to appear before the wall forming bodies of Type I (WFB I). The WFB I developed in the cytoplasmic matric whereas the WFB II were formed within the cisternae of the rough endoplasmic reticulum apparently in association with Golgi bodies. The mature WFB I were homogeneous, limited by a unit membrane, and larger than WFB II which had no limiting membrane but remained surrounded by a membrane of the rough endoplasmic reticulum. Polysaccharide granules were formed in the cytoplasm between strands of the rough endoplasmic reticulum. During maturation the WFB I & II and the polysaccharide granules increased in size and number, and as this occurred a number of electron translucent vacuoles were ejected from the surface of the macrogametocyte. The mature macrogamete possessed a large nucleus with a nucleolus, a number of multi-membranous vacuoles, mitochondria, and canaliculi. The WFB I & II were located at the cell periphery and the polysaccharide granules further towards the interior of the organism. The organism was limited by a unit membrane but during macrogametogony a homogeneous layer had developed which extensively coated the macrog...     

Direct delivery of platinum-based antineoplastics to the central nervous system: a toxicity and ultrastructural study

Platinum drugs are playing an increasingly major role in cancer treatment, but systemic administration of these agents has resulted in significant toxicity. To examine the effects of cisplatin and two newer agents, iproplatin and carboplatin, we injected the agents directly into the cerebrospinal fluid of rats and found that neurotoxic reactions resulted from doses of cisplatin (10 nmol) much lower than those of iproplatin (40 nmol) or carboplatin (80 nmol). Moreover, central nervous system tissue appeared to be less adversely affected by direct exposure to carboplatin since chronic toxicity was not observed in any of the animals receiving carboplatin until a lethal dose was reached. Furthermore, only the animals receiving cisplatin showed histologic damage in their spinal cords, and ultrastructural studies confirmed that while significant abnormalities were observed in the spinal cords of rats receiving 40 nmol cisplatin, no architectural changes were detected in the spinal cords of animals receiving 240 nmol carboplatin. We conclude that platinum drugs can be delivered intrathecally to achieve a much greater concentration of active drug than can be achieved by intravenous administration and that carboplatin appears to be the most suitable platinum-based drug for use in systems delivering drugs directly to the brain and spinal cord.     

Ultrastructural localization of P2X3 receptors in rat sensory neurons

We used isolated IgG antibodies selective for P2X3 receptors to study the ultrastructural distribution of these receptors in rat sensory neurons. In trigeminal ganglia, P2X3 receptor immunoreactivity occurred in small and large nerve cell bodies and their processes. Endoplasmic reticulum and Golgi apparatus were heavily stained; cytoplasmic matrix was faintly to moderately stained. In synaptic glomeruli in lamina II of cervical dorsal horn, P2X3 receptor-immunoreactive core terminals were postsynaptic to unlabelled vesicle-containing dendrites and axons. In the nucleus of the solitary tract, receptor-positive boutons synapsed on dendrites and cell bodies and had complex synaptic relationships with other axon terminals and vesiculated dendrites. These observations identify sites from which ATP could be released to influence sensory signalling within the central nervous system.     

Pituitary adenylate cyclase activating peptide expression in the rat dorsal root ganglia: up-regulation after peripheral nerve injury

Pituitary adenylate cyclase activating peptide (PACAP) is expressed in a population of capsaicin-sensitive primary sensory neurons of small to medium size in the rat. In the present report we have examined the effect of sciatic nerve injury (unilateral transection) on PACAP expression (immunocytochemistry, radioimmunoassay, in situ hybridization and northern blot analysis) in dorsal root ganglia at the lumbar level and on immunoreactive PACAP in the spinal cord and in the sciatic nerve stump. For comparison, calcitonin gene-related peptide was examined. In dorsal root ganglia of the intact side immunoreactive PACAP and PACAP messenger RNA were localised to a population of nerve cell bodies of small to medium size. In dorsal root ganglia on the injured side, PACAP-immunoreactive nerve cell bodies were more numerous and PACAP messenger RNA was considerably more abundant as studied 14 days after sciatic nerve transection. By contrast, calcitonin gene-related peptide-containing nerve cell bodies were numerous and rich in calcitonin gene-related peptide messenger RNA in dorsal root ganglia on the intact side, while after transection both the number of immunoreactive nerve cell bodies and their content of messenger RNA were markedly reduced. There were indications of axotomy-induced expression of PACAP messenger RNA in larger neurons. In the dorsal horn of the spinal cord on the intact side PACAP and calcitonin gene-related peptide-immunoreactive fibres were densely accumulated in the superficial layers. On the transected side the densities of both PACAP and calcitonin gene-related peptide-immunoreactive nerve fibres were reduced in the medial part. The data obtained indicate a marked up-regulation of PACAP in sensory neurons following peripheral nerve injury. Since PACAP depresses a C-fibre evoked flexion reflex, this may have implications for sensory transmission. Further, in view of the known promoting effects of PACAP on neuronal survival and differentiation and non-neuronal cell growth as well as its proinflammatory effects a role of PACAP in the neuronal and periaxonal tissue restoration after injury is not inconceivable.     

beta-Amyloid precursor protein fragments and lysosomal dense bodies are found in rat brain neurons after ventricular infusion of leupeptin

Infusion of the serine and thiol protease inhibitor, leupeptin, is known to cause a reduction of fast axoplasmic transport, and accumulation of lysosomal dense bodies in neuronal perikarya. We have found these dense bodies in hippocampal and cerebellar neurons contain ubiquitin conjugated proteins. We now demonstrate that these accumulated neuronal lysosomes are labeled by antisera to the cytoplasmic, transmembrane and extracellular domains of beta-amyloid precursor protein (APP) and also that lysosomal APP is fragmented. This in vivo model confirms that neurons can process APP via a lysosomal pathway and that neuronal lysosomes in vivo contain both N-terminal and potentially amyloidogenic C-terminal fragments of APP. We also show that increased APP immunoreactivity after leupeptin treatment is seen first in neurons and later in astrocytes. On recovery from infusion, APP N-terminal immunoreactivity diminishes whilst C-terminal reactivity remains in neurons. These findings are consistent with production in whole brain of potentially amyloidogenic fragments of APP within neuronal lysosomes in perikarya and dendrites implying that neurons may play a role in forming the beta-amyloid of plaques.     

Ultrastructural abnormalities with inclusions in Onuf's nucleus in motor neuron disease (amyotrophic lateral sclerosis)

This study describes an ultrastructural examination focused on motor neurons in Onuf's nucleus in the spinal cord of four control patients without neurological disease (45-70 years) and six motor neuron disease (MND) patients (38-79 years; duration 8 months-19 years) who showed no somato-vesical dysfunction. Prompted by recent studies suggesting some sphincteric motor neurons may succumb to MND, this study sought to determine whether the wider population of neurons in Onuf's nucleus display ultrastructural cytopathology which is normally undetectable in histological preparations. Spinal cords were removed 3-20 h after death, and 1 mm slices of cord rapidly fixed in modified Karnovsky medium were processed for both light- and electronmicroscopy. 'Control motor neurons' had intact neuronal and nuclear membranes. Nissl bodies chiefly comprised ordered structures of alternate lamellae of rough endoplasmic reticulum and arrays of polyribosomes. The Golgi complexes consisted of multilamellated curvilinear stacks of ER. No intraneuronal filamentous or Bunina body inclusions were observed, but occasional axonal spheroids were seen in the neuropil. In MND, histological evidence of sparing in Onuf's nucleus was associated with abnormal ultrastructure of the motor neurons. Some sphincteric neurons were atrophic, whereas in the others, Nissl bodies were reduced in number, showed loss of structural organization or comprised polyribosomal aggregates. Golgi complexes had disrupted lamellated organization or consisted solely of distended ER. Intraneuronal filamentous Lewy-body or skein-like inclusions and Bunina bodies were identified in Onuf's nucleus of three subjects (duration of MND 8 months-2 years). The results of the present study indicate that Onuf's nucleus is vulnerable in MND, and preservation of sphincter function with qualitative histological evidence of 'sparing' does not necessarily imply a corresponding lack of ultrastructural cytopathology in this nucleus.     

Changes in morphology and spatial position of coiled bodies during NGF-induced neuronal differentiation of PC12 cells

Interphase nuclei are organized into structural and functional domains. The coiled body, a nuclear organelle of unknown function, exhibits cell type-specific changes in number and morphology. Its association with nucleoli and with small nuclear ribonucleo-proteins (snRNPs) indicates that it functions in RNA processing. In cycling cells, coiled bodies are round structures not associated with nucleoli. In contrast, in neurons, they frequently present as nucleolar "caps." To test the hypothesis that neuronal differentiation is accompanied by changes in the spatial association of coiled bodies with nucleoli and in their morphology, PC12 cells were differentiated into a neuronal phenotype with nerve growth factor (NGF) and coiled bodies detected by immunocytochemical localization of p80-coilin and snRNPs. The fraction of cells that showed coiled bodies as nucleolar caps increased from 1.6 +/- 0.9% (mean +/- SEM) in controls to 16.5 +/- 1.6% in NGF-differentiated cultures. The fraction of cells with ring-like coiled bodies increased from 17.2 +/- 5.0% in controls to 57.8 +/- 4.4% in differentiated cells. This was accompanied by a decrease, from 81.2 +/- 5.7% to 25.7 +/- 3.1%, in the fraction of cells with small, round coiled bodies. SnRNPs remained associated with typical coiled bodies and with ring-like coiled bodies during NGF-induced recruitment of snRNPs to the nuclear periphery. Together with the observation that coiled bodies are also present as nucleolar caps in sensory neurons, the results indicate that coiled bodies alter their morphology and increase their association with nucleoli during NGF-induced neuronal differentiation.     

A journey from blame to empathy in a family assessment of a mother and her sons

Ultrastructural analysis of myelin from 8-month-old mice deficient in the myelin-associated glycoprotein revealed pronounced and characteristic alterations of the periaxonal oligodendrocyte processes, consisting of intracytoplasmic deposition of vesicular material, multivesicular bodies, mitochondria, and lipofuscin granules, as well as granular or paracrystalline inclusions. These alterations are similar to those described before as "dying-back oligodendrogliopathy" in diseases of toxic or immune-mediated demyelination including multiple sclerosis.