Group A Streptococcus(GAS;Streptococcus pyogenes)is one of the most versatile bacteria among human pathogens.Non-invasive GAS infections can cause common diseases,such as pharyngitis and impetigo.Severe invasive GAS i...Group A Streptococcus(GAS;Streptococcus pyogenes)is one of the most versatile bacteria among human pathogens.Non-invasive GAS infections can cause common diseases,such as pharyngitis and impetigo.Severe invasive GAS infections can lead to rapid progressive and life-threatening manifestations,including necrotizing fasciitis and streptococcal toxic shock syndrome with high mortality rates ranging from 30%to 70%.Therefore,GAS is also known as"killer microbes"or"flesh-eating bacteria".During severe invasive GAS infections,anti-bacterial immunity is impeded by attenuation of the cellular components of innate immune responses.However,this loss of protection is compensated for by interferon-γ-producing immature myeloid cells,which are recruited upon severe invasive GAS infections in mouse models.In this review,we discuss and summarize the current knowledge on the role of interferon-γ-producing myeloid cells and other myeloid cells in the prevention and control of severe invasive GAS infections.展开更多
基金supported by the Japan Agency forMedical Research and Development(AMED)[JP20fk0108130(TM)]Japan Society for the Promotion of Science(JSPS)KAKENHI[JP20K08833(TM)]the Takeda Science Foundation(TM).
文摘Group A Streptococcus(GAS;Streptococcus pyogenes)is one of the most versatile bacteria among human pathogens.Non-invasive GAS infections can cause common diseases,such as pharyngitis and impetigo.Severe invasive GAS infections can lead to rapid progressive and life-threatening manifestations,including necrotizing fasciitis and streptococcal toxic shock syndrome with high mortality rates ranging from 30%to 70%.Therefore,GAS is also known as"killer microbes"or"flesh-eating bacteria".During severe invasive GAS infections,anti-bacterial immunity is impeded by attenuation of the cellular components of innate immune responses.However,this loss of protection is compensated for by interferon-γ-producing immature myeloid cells,which are recruited upon severe invasive GAS infections in mouse models.In this review,we discuss and summarize the current knowledge on the role of interferon-γ-producing myeloid cells and other myeloid cells in the prevention and control of severe invasive GAS infections.
