Salmonellosis: in retrospect and prospect.

J. Stephen, T. Wallis, W. Starkey, D. Candy, M. Osborne, S. Haddon
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引用次数: 36

Abstract

Despite years of study and the accumulation of much potentially relevant information, neither the microbial determinants nor the pathophysiological mechanisms of salmonella-induced enteritis are known with precision. Earlier work is reviewed on the experimental pathology of salmonellosis, the pathophysiology of the disease and the biotyping of salmonella strains in closed rabbit ileal loops. The same strains have been confirmed by us to be (i) invasive and diarrhoeagenic, (ii) invasive and non-diarrhoeagenic, and (iii) non-invasive and non-diarrhoeagenic. At least two mechanisms have been put forward to explain fluid exsorption. One implicates prostaglandins released from polymorphonuclear cells (PMNs) interacting with invading organisms, whereas the second involves salmonella enterotoxin(s). This subject is in a state of confusion and requires clarification. The toxin has been shown by some to bear partial likeness to either cholera toxin (although the evidence is in fact contradictory) or Shiga toxin. Since both 'cholera-like' and 'Shiga-like' toxins are produced by all three biotypes in vitro, production of toxin (of whatever class or subclass) cannot per se be the sole explanation for salmonella-induced fluid secretion. In our experiments the onset of fluid secretion in rabbit ileal loops was coincident with the appearance of large numbers of infiltrating PMNs. We have also shown that organisms from all three biotypes, grown for 6 h in iron-containing but not in iron-deficient media, yielded polymyxin B extracts which are enterotoxic in rabbit ileal loops; culture supernatants were negative. Structural damage occurred to villus tips but not crypts in infected loops, succeeded the onset of fluid secretion, and was not reproduced by polymyxin B enterotoxic extracts. Thus salmonella diarrhoea may be a complex phenomenon with multiple determinants which might include the release of endogenous secretagogues and bacterial enterotoxin(s), if such are shown to be synthesized and released in vivo at appropriate times and in appropriate sites. Structural damage to villus tips leading to shortened villi may also contribute to diarrhoea by altering absorption (tip function)/secretion (crypt function) ratios as well as to the expulsion of those organisms which have not migrated to deeper tissues.
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沙门氏菌病:回顾与展望。
尽管经过多年的研究和积累了许多潜在的相关信息,但沙门氏菌诱发肠炎的微生物决定因素和病理生理机制都没有得到精确的了解。本文综述了沙门氏菌病的实验病理学、该病的病理生理学和封闭兔回肠环中沙门氏菌菌株的生物分型。我们已确认相同的菌株为(i)侵入性和腹泻性,(ii)侵入性和非腹泻性,以及(iii)非侵入性和非腹泻性。至少有两种机制被提出来解释流体的吸收。一种涉及多形核细胞(pmn)释放的前列腺素与入侵生物相互作用,而第二种涉及沙门氏菌肠毒素。这个问题很混乱,需要澄清。一些人已经证明,这种毒素与霍乱毒素(尽管证据实际上是相互矛盾的)或志贺毒素有部分相似之处。由于“霍乱样”和“志贺样”毒素都是由所有三种生物型在体外产生的,毒素的产生(无论何种类别或亚类别)本身不能成为沙门氏菌诱导的液体分泌的唯一解释。在我们的实验中,家兔回肠袢中液体分泌的开始与大量浸润pmn的出现是一致的。我们还表明,所有三种生物型的生物体,在含铁培养基中生长6小时,而不是在缺铁培养基中生长,产生的多粘菌素B提取物在兔回肠袢中具有肠毒性;培养上清为阴性。感染环的绒毛尖端发生结构损伤,而隐窝未发生结构损伤,在液体分泌开始后发生结构损伤,多粘菌素B肠毒性提取物不能复制结构损伤。因此,沙门氏菌腹泻可能是一个复杂的现象,有多种决定因素,其中可能包括内源性分泌物和细菌肠毒素的释放,如果这些被证明是在适当的时间和适当的地点在体内合成和释放的话。绒毛尖端的结构损伤导致绒毛缩短,也可能通过改变吸收(尖端功能)/分泌(隐窝功能)的比例,以及排出那些尚未迁移到深层组织的生物,从而导致腹泻。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Microdensitometry. Peptide metabolism. Local and collective motions in protein dynamics. The 'see-saw' theory of parturition. Salmonellosis: in retrospect and prospect.
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