It has been assumed that the agent causing BSE in cattle is a uniform strain (classical BSE); however, different neuropathological and molecular phenotypes of BSE (atypical BSE) have been recently reported. We demonstrated the successful transmission of L-type-like atypical BSE detected in Japan (BSE/JP24 isolate) to cattle. Based on the incubation period, neuropathological hallmarks, and molecular properties of the abnormal host prion protein, the characteristics of BSE/JP24 prion were apparently distinguishable from the classical BSE prion and closely resemble those of bovine amyloidotic spongiform encephalopathy prion detected in Italy.
BackgroundPrions, infectious agents associated with prion diseases such as Creutzfeldt-Jakob disease in humans, bovine spongiform encephalopathy (BSE) in cattle, and scrapie in sheep and goats, are primarily comprised of PrPSc, a protease-resistant misfolded isoform of the cellular prion protein PrPC. Protein misfolding cyclic amplification (PMCA) is a highly sensitive technique used to detect minute amounts of scrapie PrPSc. However, the current PMCA technique has been unsuccessful in achieving good amplification in cattle. The detailed distribution of PrPSc in BSE-affected cattle therefore remains unknown.Methodology/Principal FindingsWe report here that PrPSc derived from BSE-affected cattle can be amplified ultra-efficiently by PMCA in the presence of sulfated dextran compounds. This method is capable of amplifying very small amounts of PrPSc from the saliva, palatine tonsils, lymph nodes, ileocecal region, and muscular tissues of BSE-affected cattle. Individual differences in the distribution of PrPSc in spleen and cerebrospinal fluid samples were observed in terminal-stage animals. However, the presence of PrPSc in blood was not substantiated in the BSE-affected cattle examined.Conclusions/SignificanceThe distribution of PrPSc is not restricted to the nervous system and can spread to peripheral tissues in the terminal disease stage. The finding that PrPSc could be amplified in the saliva of an asymptomatic animal suggests a potential usefulness of this technique for BSE diagnosis. This highly sensitive method also has other practical applications, including safety evaluation or safety assurance of products and byproducts manufactured from bovine source materials.
The concentration of circulating anti-Müllerian hormone (AMH) in cattle is a useful endocrine marker for ovarian response to superovulation. Although the AMH
concentration undergoes little variation throughout the estrous cycle, its long-term changes remain incompletely understood. Here, we investigated the
relationship between superovulation response and plasma AMH concentration in Japanese Black cattle and the long-term changes in plasma AMH concentration of
embryo donor cows and heifers. The median, 25th percentile, and 75th percentile of AMH concentrations in 222 mature animals were 0.265, 0.118, and 0.488 ng/ml,
respectively. The numbers of ova/embryos, fertilized embryos, and transferable embryos in a total of 295 superovulations were significantly different among the
H (AMH ≥ 0.488 ng/ml), M (AMH 0.487–0.119 ng/ml), and L (AMH ≤ 0.118 ng/ml) groups. AMH concentrations during repeated superovulation in ten donor cows were
significantly decreased after the third treatment. In heifers, the highest AMH concentration was observed in individuals during 2–13 months of age, with
considerable individual variability. AMH concentrations of heifers at 10 or 11 months correlated with the number of ova/embryos during superovulation at 13–18
months (r = 0.641, P < 0.05). These results suggest that the 25th and 75th percentile values of AMH concentration would give a useful rough estimate of
ovarian response; however, repeated superovulation may reduce the predictive accuracy of single measurements of AMH concentration. It would be possible to
evaluate AMH concentration in heifers after approximately 11 months of age.
We report herein our experience of two cases of spontaneous hemopneumothorax in which the source of bleeding was found to be aberrant vessels. Both patients were successfully treated by early thoracotomy. Case 1 was a 23-year-old female in whom chest X-ray revealed an air-fluid line and a bulla with a narrow restiform shadow connecting the pleural cupola. Angiography clearly visualized aberrant vessels branching from the costocervical trunk, distributed in and around the bulla in the apex of the lung, being the possible source of bleeding. These aberrant vessels were confirmed at surgery and resected. Case 2 was a 56-year-old male who underwent thoracotomy for persistent bleeding. At surgery, a continuously bleeding vessel from the pleural cupola was seen and ligated. The remnant of the vessel was located in the apex of the lung, and resected with the bulla. Thus, the rare entity of a congenital aberrant vessel lying concealed as a possible source of bleeding should be borne in mind.
We recently reported the intraspecies transmission of L-type atypical bovine spongiform encephalopathy (BSE). To clarify the peripheral pathogenesis of L-type BSE, we studied prion distribution in nerve and lymphoid tissues obtained from experimentally challenged cattle. As with classical BSE prions, L-type BSE prions accumulated in central and peripheral nerve tissues.
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