SYN-007, an Orally Administered Beta-Lactamase Enzyme, Protects the Gut Microbiome from Oral Amoxicillin/Clavulanate without Adversely Affecting Antibiotic Systemic Absorption in Dogs

Connelly, Sheila; Fanelli, Brian; Hasan, Nur A.; Colwell, Rita R.; Kaleko, Michael

doi:10.3390/microorganisms8020152

Cited by 9 publications

(4 citation statements)

References 32 publications

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“…Analyzing the human gut resistome is critical to decrypt the spreading of ARGs and their types or prevalence (35). ARGs in non-pathogenic microorganisms are not a threat and sometimes protective for the microbiome against antibiotics, however, these genes can be obtained by pathogenic bacteria through mechanisms such as DNA conjugation, transformation, and transduction (33,36). These processes transmit viral (bacteriophage) elements and mobilomes like plasmids.…”

Section: Discussionmentioning

confidence: 99%

Shotgun metagenomics unravels higher antibiotic resistome profile in Bangladeshi gut microbiome

Bhattacharjee¹,

Jamal

Ahammad³

et al. 2023

Preprint

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Antibiotic resistance management is a challenging task in Low and Middle-Income Countries (LMICs) such as Bangladesh. Improper regulation and uncontrolled spreading of Antibiotic Resistant Genes (ARGs) from LIMCs pose a great threat to global public health. The human gut microbiome is a massive reservoir of Antibiotic Resistant Genes (ARGs). In this study, we unraveled the ARGs in the gut microbiome of the Bangladeshi population and compared them with several other countries around the world. Here, 31 fecal samples from different ethnic groups living in Bangladesh namely Bengali (n=9), Chakma (n=6), Khyang (n=5), Marma (n=6), and Tripura (n=5) were collected. Shotgun metagenomic sequencing method was implemented for revealing the ARGs. The resistome profiling was executed on three levels-the total microbiome, the plasmidome, and the virome. In all three levels, samples from Bangladeshi cohorts showed higher ARG profiles compared to foreign samples. On average, the number of ARGs in the Bangladeshi samples ranged between 75.11 and 88. Among them, class C beta-lactamases, quinolone resistance genes, and tetracycline efflux pumps were relatively more abundant. Additionally, the MexPQ-OpmE drug resistance pathway was found to be more prevalent. Findings from our study suggest that the spread of antibiotic resistance within the Bangladeshi population is being facilitated by the gut microbiome especially via the mobilome. Therefore, strict regulation on antibiotic usage is necessary to halt the spread of ARGs.

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Section: Discussionmentioning

confidence: 99%

Shotgun metagenomics unravels higher antibiotic resistome profile in Bangladeshi gut microbiome

Bhattacharjee¹,

Jamal

Ahammad³

et al. 2023

Preprint

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“…For example, ribaxamase (an orally administered beta-lactamase hydrolyzing β-lactams in the colon appears promising in Phase 2 studies although limited to β-lactam antibiotics) and DAV-132 which is a millimetric beads consisting of a core of a specific activated charcoal surrounded by a polymer coating that is insoluble during transit. The charcoal is activated in the ileum and adsorbs and thereby inactivates antibiotics in the caecum/colon [12][13][14][15][16]. For now, no investigation of this strategy exist in transplant recipients but its evaluation and implementation are of interest in the TOS patients, a population highly exposed to antibiotics.…”

Section: Management Of Post-transplant Bacterial Infectionsmentioning

confidence: 99%

New Approaches to Manage Infections in Transplant Recipients: Report From the 2023 GTI (Infection and Transplantation Group) Annual Meeting

Serris,

Coussement,

Pilmis

et al. 2023

Transpl Int

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“…19−22 Conceptualized approaches to β-lactamase administration were shown to impart changes to the gut resistome through antibiotic inactivation. 23,24 These studies emphasized the potential of the inactivation of β-lactam antibiotics to protect the gut microbiome in the gastro- intestinal tract (GI) tract. However, the role of β-lactamases on various organisms is not fully understood due to the lack of model systems that can facilitate the evaluation of specific organisms' interaction in a dynamic manner.…”

Section: ■ Introductionmentioning

confidence: 99%

“…The β-lactam class of antibiotics encompasses a broad spectrum of antimicrobials, including ampicillin, penicillin, and cephalosporins, comprising 65% of the world market for antibiotics . To date, β-lactamases have been considered as one of the major mechanisms of resistance in the fight against β-lactam class of antibiotics by acting on the bacterial cell wall synthesis. , This mechanism of resistance is even more common in microorganisms that reside in the human gut and play a protective role in minimizing the damage caused by antibiotics. − Conceptualized approaches to β-lactamase administration were shown to impart changes to the gut resistome through antibiotic inactivation. , These studies emphasized the potential of the inactivation of β-lactam antibiotics to protect the gut microbiome in the gastrointestinal tract (GI) tract. However, the role of β-lactamases on various organisms is not fully understood due to the lack of model systems that can facilitate the evaluation of specific organisms’ interaction in a dynamic manner.…”

Section: Introductionmentioning

confidence: 99%

Dynamic Effect of β-Lactam Antibiotic Inactivation Due to the Inter- and Intraspecies Interaction of Drug-Resistant Microbes

Jeong,

Ahmad,

Irudayaraj

2024

ACS Biomater. Sci. Eng.

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The presence of β-lactamase positive microorganisms imparts a pharmacological effect on a variety of organisms that can impact drug efficacy by influencing the function or composition of bacteria. Although studies to assess dynamic intra-and interspecies communication with bacterial communities exist, the efficacy of drug treatment and quantitative assessment of multiorganism response is not well understood due to the lack of technological advances that can be used to study coculture interactions in a dynamic format. In this study, we investigate how β-lactamase positive microorganisms can neutralize the effect of β-lactam antibiotics in a dynamic format at the inter-and intraspecies level using microbial bead technology. Three interactive models for the biological compartmentalization of organisms were demonstrated to evaluate the effect of β-lactam antibiotics on coculture systems. Our model at the intraspecies level attempts to mimic the biofilm matrix more closely as a community-level feature of microorganisms, which acknowledges the impact of nondrug-resistant species in shaping the dynamic response. In particular, the results of intraspecies studies are highly supportive of the biofilm mode of bacterial growth, which can provide structural support and protect the bacteria from an assault on host or environmental factors. Our findings also indicate that βlactamase positive bacteria can neutralize the cytotoxic effect of β-lactam antibiotics at the interspecies level when cocultured with cancer cells. Results were validated using β-lactamase positive bacteria isolated from environmental niches, which can trigger phenotypical alteration of β-lactams when cocultured with other organisms. Our compartmentalization strategy acts as an independent ecosystem and provides a new avenue for multiscale studies to assess intra-and interspecies interactions.

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SYN-007, an Orally Administered Beta-Lactamase Enzyme, Protects the Gut Microbiome from Oral Amoxicillin/Clavulanate without Adversely Affecting Antibiotic Systemic Absorption in Dogs

Cited by 9 publications

References 32 publications

Shotgun metagenomics unravels higher antibiotic resistome profile in Bangladeshi gut microbiome

Shotgun metagenomics unravels higher antibiotic resistome profile in Bangladeshi gut microbiome

New Approaches to Manage Infections in Transplant Recipients: Report From the 2023 GTI (Infection and Transplantation Group) Annual Meeting

Dynamic Effect of β-Lactam Antibiotic Inactivation Due to the Inter- and Intraspecies Interaction of Drug-Resistant Microbes

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