Impaired migration of PMN is due to degradation of IL-8 by serine proteinase ScpC 
Although NIH230slo lost the killing activity for PMN, migration of PMN in response to IL-8 in a transwell system was not restored in the presence of this mutant (Figure 4A), thereby, suggesting that severe invasive GAS blocks PMN migration by influence on IL-8 activity.
Therefore, we quantified the amount of IL-8 in culture before and after co-culture with clinically isolated GAS or its mutants.
Figure 4B shows that the amount of IL-8 was significantly reduced by 60-min co-culture with NIH230, as well as NIH230slo, but not with non-invasive GAS 1556.
As previous reports suggested that the GAS envelope peptidase ScpC (also known as SpyCEP) degrades the CXC chemokines, such as human IL-8, Groalpha, murine KC and MIP-2 [17]-[19], we established a NIH230 mutant deficient with ScpC (NIH230scpC) and analyzed the property in a PMN migration assay.
The results showed that NIH230scpC neither digested IL-8, like 1566 strain, (Figure 4B) nor abrogated the migration of PMN in response to IL-8, comparable to 1566 strain (Figure 4A), whereas the mutant killed the migrated PMN as well as the parent strain NIH230 (data not shown).
These results demonstrate that clinically isolated invasive GAS impaired PMN recruitment and its survival, as a result of productions of ScpC and SLO, respectively.
