Glycerol suppresses lactose-dependent growth of Streptococcus pyogenes through a transcription-independent mechanism

Streptococcus pyogenes (group A Streptococcus ; GAS) requires flexible metabolic regulation to adapt to diverse host environments; however, its physiological responses to lactose and glycerol remain poorly characterized compared with glucose. In this study, we analyzed three representative serotype M1 GAS strains—the M1 _global strain 5448, the ancestral M1 strain SF370, and SP1380 as a representative of the recently emerged M1 _UK lineage. Glycerol consistently suppressed lactose-dependent growth across all strains, while glycerol-dependent respiratory activity was observed in 5448 and SF370 but was absent in SP1380. RNA-seq analysis of strain 5448 revealed no significant transcriptional changes upon glycerol supplementation, indicating that this inhibitory effect likely occurs through a non-transcriptional mechanism. In contrast, lactose supplementation induced distinct transcriptional programs compared with glucose, including coordinated expression changes gene sets regulated by carbohydrate-responsive transcription factors (CcpA, MalR, and NanR) and by the virulence regulator Mga and the stress-response regulator Rgg. Together, these findings identify a previously unrecognized layer of carbon source-dependent metabolic regulation and growth control in GAS.