Design of Broadly Cross-Reactive M Protein–Based Group A Streptococcal Vaccines

Aranha, Michelle P.; Penfound, Thomas A.; Salehi, Sanaz; Botteaux, Anne; Smeesters, Pierre; Dale, James B.; Smith, Jeremy C.

doi:10.4049/jimmunol.2100286

Cited by 10 publications

(7 citation statements)

References 45 publications

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“…In the present study, 63.9% of iGAS and piGAS infections would be covered by this vaccine. Cross-reactions have been demonstrated in vitro [ 42 ] and suggest a broader cross-reaction coverage of the 30-valent vaccine in humans. However, in vivo studies are needed to confirm this.…”

Section: Discussionmentioning

confidence: 99%

Incidence and clinical and microbiological features of invasive and probable invasive streptococcal group A infections in children and adults in the Brussels-Capital Region, 2005–2020

Zangarini

Martiny

Deyi

et al. 2023

Eur J Clin Microbiol Infect Dis

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Assess the incidence, risk factors, clinical and microbiological features, and outcome of both probable invasive and invasive group A Streptococcus (GAS) infections in children and adults in the BrusselsCapital Region between 2005 and 2020. A retrospective, multicentric study was performed in three university hospitals in Brussels. Patients were identified through the centralized laboratory information system. Epidemiological and clinical data were collected from patients’ hospital records. A total of 467 cases were identified. Incidence has increased from 2.1 to 10.9/100,000 inhabitants between 2009 and 2019 in non-homeless adults while it was above 100/100,000 on homeless in years with available denominators. Most of GAS were isolated from blood (43.6%), and the most common clinical presentation was skin and soft tissue infections (42.8%). A third of all the patients needed surgery, a quarter was admitted to the intensive care unit, and 10% of the adult patients died. Wounds and chickenpox disease were the main risk factors for children. Tobacco, alcohol abuse, wounds or chronic skin lesion, being homeless, and diabetes were identified as major predisposing factors for adults. The most common emm clusters were D4, E4, and AC3; 64% of the isolates were theoretically covered by the 30-valent M-protein vaccine. The burden of invasive and probable invasive GAS infections is on the rise in the studied adult population. We identified potential interventions that could contribute to decrease this burden: appropriate care of wounds, specifically among homeless and patients with risk factors such as diabetes and systematic chickenpox vaccination for children. Supplementary Information The online version contains supplementary material available at 10.1007/s10096-023-04568-y.

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Section: Discussionmentioning

confidence: 99%

Incidence and clinical and microbiological features of invasive and probable invasive streptococcal group A infections in children and adults in the Brussels-Capital Region, 2005–2020

Zangarini

Martiny

Deyi

et al. 2023

Eur J Clin Microbiol Infect Dis

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“…59,60,62,63 M-protein has been widely studied and is believed to have a role in adhering to host cells and blocking phagocytosis thereby helping GAS colonization. 63,64 M-protein is a versatile protein in terms of both structure and function. M-protein can bind to fibrinogen, fibronectin, and host plasminogen, apart from that it also plays a role in interfering with complement protein deposits through binding to the Fc domain with IgG and complement regulators namely C4BP protein and factor H so that M-protein has a big role in virulence factors because can resist opsonophagocytosis.…”

Section: Gas Vaccine Development For Arf/rhdmentioning

confidence: 99%

“…However, the main problem in developing an M-protein-based GAS vaccine is cross-reactivity with human organs, especially the myosin protein in heart muscle cells. 64,72,73 The first evidence showing the existence of cross-reactivity between anti-streptococcal antibodies and human heart tissue was found in experimental mice that had been immunized with GAS components. In fact, crossreactivity has become one of the main hypothesized mechanisms causing the emergence of ARF attacks several weeks after the onset of manifestations of GAS infection such as sore throat infection or impetigo due to autoimmunity which recognizes the M-protein GAS along with the proteins found in the heart valves, synovial tissue, and basal ganglia due to the similarity of protein structures which is referred to as molecular mimicry.…”

Section: Gas Vaccine Development For Arf/rhdmentioning

confidence: 99%

Unveiling the Group A Streptococcus Vaccine-Based L-Rhamnose from Backbone of Group A Carbohydrate: Current Insight Against Acute Rheumatic Fever to Reduce the Global Burden of Rheumatic Heart Disease

Ambari,

Desandri,

Dwiputra

et al. 2024

F1000Res

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Group A Streptococcus (GAS) is a widely distributed bacterium that is Gram-positive and serves as the primary cause of acute rheumatic fever (ARF) episodes. Rheumatic heart disease (RHD) is a sequela resulting from repeated ARF attacks which are also caused by repeated GAS infections. ARF/RHD morbidity and mortality rates are incredibly high in low- and middle-income countries. This is closely related to poor levels of sanitation which causes the enhanced incidence of GAS infections. Management of carditis in RHD cases is quite challenging, particularly in developing countries, considering that medical treatment is only palliative, while definitive treatment often requires more invasive procedures with the high costs. Preventive action through vaccination against GAS infection is one of the most effective steps as a solution in reducing RHD morbidity and mortality due to curative treatments are expensive. Various developments of M-protein-based GAS vaccines have been carried out over the last few decades and have recently begun to enter the clinical stage. Nevertheless, this vaccination generates cross-reactive antibodies that might trigger ARF assaults as a result of the resemblance between the M-protein structure and proteins found in many human tissues. Consequently, the development of a vaccine utilizing L-Rhamnose derived from the poly-rhamnose backbone of Group A Carbohydrate (GAC) commenced. The L-Rhamnose-based vaccine was chosen due to the absence of the Rhamnose biosynthesis pathway in mammalian cells including humans thus this molecule is not found in any body tissue. Recent pre-clinical studies reveal that L-Rhamnose-based vaccines provide a protective effect by increasing IgG antibody titers without causing cross-reactive antibodies in test animal tissue. These findings demonstrate that the L-Rhamnose-based vaccine possesses strong immunogenicity, which effectively protects against GAS infection while maintaining a significantly higher degree of safety.

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“…Notably, 15 of the 30 M protein HVRs in StreptAnova TM have the C4BP-binding 3D pattern, and correspondingly 20 of the ~50 cross-reactive M protein types elicited by StreptAnova TM have the 3D pattern (26,27), suggesting that at least some of the cross-reactivity of StreptAnova TM is due to recognition of the 3D pattern. Likewise, M type crossreactivity observed for three other multi-HVR immunogens may be explained by recognition of the 3D pattern (39)(40)(41). The composition of these three immunogens, which are pentavalent or hexavalent and mostly contain HVRs that are also in StreptAnova TM , is based on physicochemical properties rather than M type prevalence in North America and Europe as it is for StreptAnova TM (26).…”

Section: Introductionmentioning

confidence: 97%

Design of aStreptococcus pyogenesM protein immunogen to elicit M type cross-reactivity

Wang

Nizet

Ghosh

2021

Preprint

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M proteins of the widespread and potentially deadly bacterial pathogen Streptococcus pyogenes (Strep A) are immunodominant targets of opsonizing antibodies. However, the antigenic sequence variability of the M protein into >220 M types has limited its utility as a vaccine immunogen, as antibody recognition is usually type-specific. At present no vaccine against Strep A exists. Unlike type-specific antibodies, C4BP binds type-promiscuously to M proteins. We recently showed that this was due to a three-dimensional (3D) pattern of amino acids that is conserved in numerous M types. We hypothesized that M protein immunogens biased towards the 3D pattern and away from variable sequences would evoke a broadly protective response. We show here that an immunogen containing only 34 amino acids of M2 protein retained C4BP-binding and was sufficient to evoke antibodies that were cross-reactive and opsonophagocytic against multiple M types. These proof-of-principle experiments provide significant evidence that an essential Strep A virulence trait (i.e., C4BP binding) can be targeted in the design of an immunogen that evokes a broadly protective response.

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Design of Broadly Cross-Reactive M Protein–Based Group A Streptococcal Vaccines

Cited by 10 publications

References 45 publications

Incidence and clinical and microbiological features of invasive and probable invasive streptococcal group A infections in children and adults in the Brussels-Capital Region, 2005–2020

Incidence and clinical and microbiological features of invasive and probable invasive streptococcal group A infections in children and adults in the Brussels-Capital Region, 2005–2020

Unveiling the Group A Streptococcus Vaccine-Based L-Rhamnose from Backbone of Group A Carbohydrate: Current Insight Against Acute Rheumatic Fever to Reduce the Global Burden of Rheumatic Heart Disease

Design of aStreptococcus pyogenesM protein immunogen to elicit M type cross-reactivity

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