Evolutionary Features in the Structure and Function of Bacterial Toxins

Kumar, Raj; Feltrup, Thomas M.; Kukreja, Roshan; Patel, Kruti; Cai, Shuowei; Singh, Bal Ram

doi:10.3390/toxins11010015

Cited by 28 publications

(18 citation statements)

References 134 publications

(176 reference statements)

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“…However, the release of protein factors from internalized bacteria or the direct interaction of the target cell with bacterial surface moieties are efficient systems to interact with the target cell as well. Bacterial toxins are among the oldest molecules that evolved as a virulence factor for the bacteria and, therefore, studying their evolutionary findings can contribute to explain their origin, the rationale underlying their diversity, and the purpose of their production [ 159 ]. Such virulence factors clearly provide a selective advantage to the bacteria and, importantly, add an extra energy burden for the bacterial cells and also divide labor between bacterial cells, with only a fraction of them that are toxigenic [ 160 ].…”

Section: Discussionmentioning

confidence: 99%

Gut Microbiota and Colon Cancer: A Role for Bacterial Protein Toxins?

Fiorentini¹,

Carlini

Germinario

et al. 2020

IJMS

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Accumulating evidence indicates that the human intestinal microbiota can contribute to the etiology of colorectal cancer. Triggering factors, including inflammation and bacterial infections, may favor the shift of the gut microbiota from a mutualistic to a pro-carcinogenic configuration. In this context, certain bacterial pathogens can exert a pro-tumoral activity by producing enzymatically-active protein toxins that either directly induce host cell DNA damage or interfere with essential host cell signaling pathways involved in cell proliferation, apoptosis, and inflammation. This review is focused on those toxins that, by mimicking carcinogens and cancer promoters, could represent a paradigm for bacterially induced carcinogenesis.

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Section: Discussionmentioning

confidence: 99%

Gut Microbiota and Colon Cancer: A Role for Bacterial Protein Toxins?

Fiorentini¹,

Carlini

Germinario

et al. 2020

IJMS

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“…must be selective for its target), and must reach the target molecule within the target organism effectively (i.e. must have good pharmacokinetic properties, the ability to evade clearance and degradation, and often, the ability to pass through biological barriers) [62,63]. Nature has repeatedly settled upon mesoscale molecules as an effective solution given these constraints, relying on backbone macrocyclization, disulfide bonds, and other covalent linkages to produce rigid molecules pre-organized in their bindingcompetent conformations [64,65].…”

Section: • Peptide Macrocycles Represent An Underexplored Class Of Drmentioning

confidence: 99%

The emerging role of computational design in peptide macrocycle drug discovery

Mulligan

2020

Expert Opinion on Drug Discovery

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Drug discovery is a laborious process with rising cost per new drug. Peptide macrocycles are promising therapeutics, though conformational flexibility can reduce target affinity and specificity. Recent computational advancements address this problem by enabling rational design of rigidly folded peptide macrocycles. Areas Covered: This review summarizes currently approved peptide macrocycle therapeutics and discusses advantages of mesoscale drugs over small molecules or protein therapeutics. It describes the history, rationale, and state of the art of computational tools, such as Rosetta, that allow the design of rigidly structured peptide macrocycles. The emerging pipeline for designing peptide macrocycle drugs is described, including current challenges in designing permeable molecules that can emulate the chameleonic behavior of natural macrocycles. Prospects for reducing computational cost and improving accuracy with emerging computational technologies are also discussed. Expert opinion: To embrace computational design of peptide macrocycle drugs, we must shift current attitudes regarding the role of computation in drug discovery, and move beyond Lipinski's rules. This technology has the potential to shift failures to earlier in silico stages of the drug discovery process, improving success rates in costly clinical trials. Given the available tools, now is the time for drug developers to incorporate peptide macrocycle design into drug discovery pipelines.

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“…As toxinas bacterianas além de diversas, também apresentam ampla distribuição. Elas apresentam como características únicas a dobragem estrutural, sequência e combinação funcional de domínios, visando um processo celular para executar sua função e sua flexibilidade e dinâmica (KUMAR et al, 2019). O fator de virulência que as toxinas apresentam está intimamente relacionados ao tipo de ação que as mesmas podem apresentar, onde pode-se encontrar exemplos de genotoxinas, cujo alvo molecular é o DNA.…”

Section: Toxinas Bacterianasunclassified