Staphylococcus aureus Strains Isolated from Cattle Livestock and Possible Use of Anti-Virulence Strategies

S. Focardi
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Abstract

Staphylococcus aureus is known for its ability to acquire resistance to commonly used antibiotics and causes mastitis in cows. Bacterial strains belonging to this species can spread in humans and animals, through diffusion in different contexts, including workplaces and the environment. The antibiotic-resistance in S. aureus strains evidenced the need for novel therapeutic approaches that do not exert selective pressure on the evolutionary adaptation of the bacteria. Alternative approaches can be represented by anti-virulence therapies that interfere with virulence factors, or relative pathways that regulate the production of toxins. Various S. aureus toxins and regulatory systems involved in secreting these toxins can be investigated. The potential of targeting S. aureus toxins and virulence-mediated pathways as anti-virulence strategies can be a substantial and important alternative, in contrast to traditional antibiotics directed at pathogen viability but triggering the mechanisms of antibiotic-resistance. Thus, the antivirulence approach must be aimed to reduce the production of virulence factors without affecting bacterial growth. Strategies to reduce bacterial virulence include compounds able to inhibit quorum sensing, disassemble bacterial membranes, disrupt biofilm formation, or neutralize the bacterial toxin, thus reducing the spread of the infection. Virulence factors eventually related to the infectiousness of S. aureus strains can offer new insights into vaccine development and possible identification of new vaccine targets. The benefits of the antivirulence-antibiotic combination during the treatment against S. aureus infections have been enhanced by virtue of the synergistic action between antibiotics and the antivirulence compounds. The characteristics of the spread of antibiotic resistant S. aureus and its virulence characteristics for anti-virulence strategies have been described.
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牛、家畜金黄色葡萄球菌分离株及其抗毒策略的应用
众所周知,金黄色葡萄球菌能够获得对常用抗生素的耐药性,并引起奶牛的乳腺炎。属于该物种的细菌菌株可通过在不同环境(包括工作场所和环境)中的扩散在人类和动物中传播。金黄色葡萄球菌菌株的抗生素耐药性证明需要新的治疗方法,而不是对细菌的进化适应施加选择压力。替代方法可以通过干扰毒力因子的抗毒治疗或调节毒素产生的相关途径来代表。各种金黄色葡萄球菌毒素和参与分泌这些毒素的调节系统可以进行调查。与传统抗生素相比,靶向金黄色葡萄球菌毒素和毒力介导途径作为抗毒力策略的潜力可能是一个实质性和重要的替代方案,而传统抗生素针对病原体的生存能力,但会引发抗生素耐药性的机制。因此,抗毒性方法必须旨在减少毒力因子的产生而不影响细菌生长。降低细菌毒力的策略包括能够抑制群体感应、分解细菌膜、破坏生物膜形成或中和细菌毒素的化合物,从而减少感染的传播。最终与金黄色葡萄球菌菌株的传染性相关的毒力因子可以为疫苗开发和新疫苗靶点的可能鉴定提供新的见解。在治疗金黄色葡萄球菌感染的过程中,由于抗生素和抗毒化合物之间的协同作用,抗毒-抗生素组合的益处得到了增强。本文描述了耐药金黄色葡萄球菌的传播特征及其抗毒策略的毒力特征。
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