M1 protein expression determines niche-specific spread of Streptococcus pyogenes

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Abstract

Invasive infections with Streptococcus pyogenes account for significant mortality. Cell surface M protein is believed to be essential for S. pyogenes virulence, with critical roles in dissemination and immune evasion. In contrast, the role of secreted M protein in infection is less clear. Here, we assessed the role of M protein in streptococcal colonisation, persistence, and invasion in respiratory and soft tissue murine infection models, and report that while cell-surface M protein is required to establish nasopharyngeal infection, it does not drive invasive infection. Cell-surface M protein was important for binding of major host matrix proteins and growth in immune human blood, but soluble M protein was the predominant determinant of lymphatic survival, tissue spread, and systemic infection in mice. A mutant emm 1 strain which only expresses secreted M protein exhibited enhanced survival in the lymph node niche and overall competitive advantage over the wildtype parent strain in co-infections. Absence of M protein at the bacterial cell surface led to enhanced hyaluronan binding, providing explanation for homing to the draining lymph node. Together, these findings highlight potential nuance in the role of M protein that may impact vaccine approaches targeting M protein. Author Summary S. pyogenes is a significant cause of illness, both mild and lethal, worldwide. Despite this, there are currently no approved vaccines. Many vaccine candidates are based on the M protein, a surface expressed anti-phagocytic factor that is thought to be critical for the ability of S. pyogenes to evade the host immune system. The unexpected selection of an M1 protein mutant strain following in vivo soft tissue infection raised many questions for us. If M protein is meant to be the critical factor in avoiding immune killing, how was this strain able to persist? One explanation could be that, although the strain was negative for M1 protein on the bacterial surface, it still secreted a truncated version of the protein with potential inflammatory effects. Importantly, the strain was selected in the draining lymph node pointing to a niche-specific advantage. We showed that cell surface-associated M1 protein, although required to establish nasopharyngeal infection, was not required in soft tissue infection, and that expression of a soluble, truncated form of M1 protein gave a survival advantage over the wild-type strain expressing cell wall-associated M1 protein. Furthermore, the absence of cell surface M protein led to enhanced hyaluronan binding providing explanation for lymphatic niche homing.

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last seen: 2026-05-20T01:45:00.602351+00:00
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License: CC-BY-4.0