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Histopathological Hallmark (histopathological + hallmark)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Neutrophil influx during non-typhoidal salmonellosis: who is in the driver's seat?

FEMS IMMUNOLOGY & MEDICAL MICROBIOLOGY, Issue 3 2006
Çagla Tükel
Abstract A massive neutrophil influx in the intestine is the histopathological hallmark of Salmonella enterica serovar Typhimurium-induced enterocolitis in humans. Two major hypotheses on the mechanism leading to neutrophil infiltration in the intestinal mucosa have emerged. One hypothesis suggests that S. enterica serovar Typhimurium takes an active role in triggering this host response by injecting proteins, termed effectors, into the host cell cytosol which induce a proinflammatory gene expression profile in the intestinal epithelium. The second hypothesis suggests a more passive role for the pathogen by proposing that bacterial invasion stimulates the innate pathways of inflammation because the pathogen-associated molecular patterns of S. enterica serovar Typhimurium are recognized by pathogen recognition receptors on cells in the lamina propria. A review of the current literature reveals that, while pathogen recognition receptors are clearly involved in eliciting neutrophil influx during S. enterica serovar Typhimurium infection, a direct contribution of effectors in triggering proinflammatory host cell responses cannot currently be ruled out. [source]

Quantitative isolation of ,1AT mutant Z protein polymers from human and mouse livers and the effect of heat,

HEPATOLOGY, Issue 1 2005
Jae-Koo An
Alpha-1-antitrypsin (,1AT) deficiency in its most common form is caused by homozygosity for the ,1AT mutant Z gene. This gene encodes a mutant Z secretory protein, primarily synthesized in the liver, that assumes an abnormal conformation and accumulates within hepatocytes causing liver cell injury. Studies have shown that mutant ,1ATZ protein molecules form unique protein polymers. These Z protein polymers have been hypothesized to play a critical role in the pathophysiology of liver injury in this disease, although a lack of quantitative methods to isolate the polymers from whole liver has hampered further analysis. In this study, we demonstrate a quantitative ,1ATZ polymer isolation technique from whole liver and show that the hepatocellular periodic acid-Schiff,positive globular inclusions that are the histopathological hallmark of this disease are composed almost entirely of the polymerized ,1ATZ protein. Furthermore, we examine the previously proposed but untested hypothesis that induction of ,1ATZ polymerization by the heat of physiological fever is part of the mechanism of hepatic ,1ATZ protein accumulation. The results, however, show that fever-range temperature elevations have no detectable effect on steady-state levels of intrahepatic Z protein polymer in a model in vivo system. In conclusion, methods to separate insoluble protein aggregates from liver can be used for quantitative isolation of ,1ATZ protein polymers, and the effect of heat from physiological fever may be different in vivo compared with in vitro systems. (HEPATOLOGY 2005;41:160,167.) [source]

Diameter of the Cochlear Nerve in Endolymphatic Hydrops: Implications for the Etiology of Hearing Loss in Ménière's Disease,

THE LARYNGOSCOPE, Issue 9 2005
Cliff A. Megerian MD
Abstract Objective/Hypothesis: Endolymphatic hydrops (ELH) is an important histopathological hallmark of Ménière's disease. Experimental data from human temporal bones as well as animal models of the disorder have generally failed to determine the mechanism by which ELH or related pathology causes hearing loss. Hair cell and spiral ganglion cell counts in both human and animal case studies have not, for the most part, shown severe enough deterioration to explain associated severe sensorineural hearing loss. However a limited number of detailed ultrastructural studies have demonstrated significant reductions in dendritic innervation densities, raising the possibility that neurotoxicity plays an important role in the pathology of Ménière's disease (MD) as well as experimental endolymphatic hydrops (ELH). This study tests the hypothesis that neurotoxicity is an important primary mediator of injury to the hydropic ear and is reflected in measurable deterioration of the cochlear nerve in the animal model of ELH. This study also explores the previously presented hypothesis that cochlear injury in ELH is mediated through the actions of nitric oxide (NO) by evaluating whether hearing loss or various measures of cochlear damage can be ameliorated by administration of an agent that limits excess production of NO. Study Design: Part one of the project involves the surgical induction of endolymphatic hydrops and correlation of long term hearing loss with histological parameters of ELH severity as well as cochlear nerve and eighth cranial nerve diameter measurements. In part two, aminoguanidine is administered orally to a separate set of hydropic animals in an attempt to limit cochlear injury presumably mediated by NO. Methods: Guinea pigs are subjected to surgical induction of unilateral endolymphatic hydrops after establishing baseline ABR thresholds at 2, 4, 8, 16, and 32 kHz. Threshold shifts are established prior to sacrifice at 4 to 6 months and temporal bones processed for light microscopy. Measurements of cochlear nerve and eighth cranial nerve maximal diameters as well as average maximal diameters are carried out and correlated to hearing loss and a semi-quantitative measure of hydrops severity. The identical experiments are carried out in animals treated with aminoguanidine, an inhibitor of inducible nitric oxide synthase. Results: The mean maximal diameter (n = 14) of the hydropic cochlear nerve was significantly reduced (432.14 ± 43.18 vs. 479.28 ± 49.22 microns, P = .0025) as compared to the control nerve. This was also seen in measures of the eighth cranial nerve (855.71 ± 108.82 vs. 929 ± 81.53 microns, P = 0.0003). Correlation studies failed to show correlation between hydrops severity and a cochlear nerve deterioration index (r = -0.0614, P = .8348). Similarly, hearing loss severity failed to correlate with cochlear nerve deterioration (r = 0.1300, P = .6577). There was a significant correlation between hearing loss and hydrops severity (r = 0.6148, P = .0193). Aminoguanidine treated animals (n = 5) also sustained nerve deterioration to the same degree as non-treated animals and there appeared to be no protective effect (at the dosage administered) against ELH related hearing loss, hydrops formation, or nerve deterioration. Conclusion: ELH results in significant deterioration of cochlear nerve and eighth cranial nerve maximal diameters in the guinea pig model. These findings are in accord with previous studies which detected ultrastructural evidence of dendritic damage and indicate that neural injury is of sufficient severity to result in light microscopic evidence of cochlear nerve and eighth cranial nerve deterioration. These data support the concept that the principle pathological insult in ELH is a form of neurotoxicity, especially in light of previous studies which indicate relative preservation of hair cells at similar points in time. The lack of correlation between the severity of hydrops and nerve deterioration suggests that nerve deterioration is independent of hydrops severity. [source]

FUS-Immunoreactive Intranuclear Inclusions in Neurodegenerative Disease

BRAIN PATHOLOGY, Issue 3 2010
John Woulfe
Abstract Neuronal intranuclear inclusions (NIIs) are a histopathological hallmark of several neurodegenerative disorders. However, the role played by NIIs in neurodegenerative pathogenesis remains enigmatic. Defining their molecular composition represents an important step in understanding the pathophysiology of these disorders. Recently, a nuclear protein, "fused-in-sarcoma" (FUS) was identified as the pathological protein in two forms of frontotemporal lobar degeneration (FTLD-IF, formerly known as neuronal intermediate filament inclusion disease, and FTLD-UPS, formerly known as atypical FTLD-U), both of which are characterized by the presence of NII. The objective of the present study was to determine the range of neurodegenerative disorders characterized by FUS-positive NIIs. Immunostaining for FUS revealed intense reactivity of NIIs in FTLD-IF and FTLD-UPS as well as in Huntington's disease, spinocerebellar ataxias 1 and 3, and neuronal intranuclear inclusion body disease. In contrast, there was no FUS staining of NIIs in inherited forms of FTLD-TDP caused by GRN and VCP mutations, fragile-X-associated tremor ataxia syndrome, or oculopharyngeal muscular dystrophy. In a cell culture model of Huntington's disease, NIIs were intensely FUS-positive. NII-bearing cells displayed loss of the normal diffuse nuclear pattern of FUS staining. This suggests that sequestration of nuclear FUS by NIIs may interfere with its normal nuclear localization. [source]