Role of the Sortase A in the Release of Cell-Wall Proteinase PrtS in the Growth Medium of Streptococcus thermophilus 4F44

Ahoefa Ablavi Awussi,Bernard Maigret,Catherine Humeau,Gérard Humbert,Laurent Miclo,Xavier Lecomte,Oun Ki Chang,Emeline Roux,Clarisse Perrin,Annie Dary-Mourot,Zeeshan Hafeez,Magali Genay

doi:10.3390/microorganisms9112380

Abstract

Growth of the lactic acid bacterium Streptococcus thermophilus in milk depends on its capacity to hydrolyze proteins of this medium through its surface proteolytic activity. Thus, strains exhibiting the cell envelope proteinase (CEP) PrtS are able to grow in milk at high cellular density. Due to its LPNTG motif, which is possibly the substrate of the sortase A (SrtA), PrtS is anchored to the cell wall in most S. thermophilus strains. Conversely, a soluble extracellular PrtS activity has been reported in the strain 4F44. It corresponds, in fact, to a certain proportion of PrtS that is not anchored to the cell wall but rather is released in the growth medium. The main difference between PrtS of strain 4F44 (PrtS4F44) and other PrtS concerns the absence of a 32-residue imperfect duplication in the prodomain of the CEP, postulated as being required for the maturation and correct subsequent anchoring of PrtS. In fact, both mature (without the prodomain at the N-terminal extremity) and immature (with the prodomain) forms are found in the soluble PrtS4F44 form along with an intact LPNTG at their C-terminal extremity. Investigations we present in this work show that (i) the imperfect duplication is not implied in PrtS maturation; (ii) the maturase PrtM is irrelevant in PrtS maturation which is probably automaturated; and (iii) SrtA allows for the PrtS anchoring in S. thermophilus but the SrtA of strain 4F44 (SrtA4F44) displays an altered activity.

Highlights

IntroductionPresumption of Safety” and “Generally Recognized as Safe” (GRAS) designations
The lactic acid bacterium S. thermophilus is widely used in the manufacturing of domestic and industrial fermented dairy products [1], and has obtained the “QualifiedPresumption of Safety” and “Generally Recognized as Safe” (GRAS) designations
S. thermophilus is auxotrophic for certain amino acids and needs to get them from its environment [4,5], whereas milk, the only known habitat of this bacterium, mainly contains proteins and very few immediately assimilable peptides and amino acids

Summary

Introduction

Presumption of Safety” and “Generally Recognized as Safe” (GRAS) designations. It belongs to the Streptococcus genus which is mainly pathogenic or commensal [2,3]. S. thermophilus needs them for its growth to reach a high cell density of a functional surface proteolytic system [6,7]. It consists of the CEP PrtS, able to break down caseins into peptides, which are internalized through specific transporters and hydrolyzed by 4.0/).

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