Surface Physical Activity and Hydrophobicity of Designed Helical Peptide Amphiphiles Control Their Bioactivity and Cell Selectivity

Chen, Cuixia; Yang, Cheng; Zhao, Yurong; Wang, Fang; Mu, Quanmeng; Zhang, Jing; Li, Zongyi; Pan, Fang; Xu, Hai; Lu, Jian R.

doi:10.1021/acsami.6b08297

Cited by 49 publications

(67 citation statements)

References 45 publications

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“…Moreover, the property of ARGP820103 (the fourth most important PCPs) is also associated with hydrophobicity property. Many previous studies have described the need for symbiosis between hydrophobicity and cationicity of peptides in order to enhance its cell penetrating property and its ability to reach target cell as to exert its effects [106,107,108,109]. In addition, researchers have made efforts to assess the influence of hydrophobicity on anticancer effects.…”

Section: Resultsmentioning

confidence: 99%

ACPred: A Computational Tool for the Prediction and Analysis of Anticancer Peptides

et al. 2019

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Anticancer peptides (ACPs) have emerged as a new class of therapeutic agent for cancer treatment due to their lower toxicity as well as greater efficacy, selectivity and specificity when compared to conventional small molecule drugs. However, the experimental identification of ACPs still remains a time-consuming and expensive endeavor. Therefore, it is desirable to develop and improve upon existing computational models for predicting and characterizing ACPs. In this study, we present a bioinformatics tool called the ACPred, which is an interpretable tool for the prediction and characterization of the anticancer activities of peptides. ACPred was developed by utilizing powerful machine learning models (support vector machine and random forest) and various classes of peptide features. It was observed by a jackknife cross-validation test that ACPred can achieve an overall accuracy of 95.61% in identifying ACPs. In addition, analysis revealed the following distinguishing characteristics that ACPs possess: (i) hydrophobic residue enhances the cationic properties of α-helical ACPs resulting in better cell penetration; (ii) the amphipathic nature of the α-helical structure plays a crucial role in its mechanism of cytotoxicity; and (iii) the formation of disulfide bridges on β-sheets is vital for structural maintenance which correlates with its ability to kill cancer cells. Finally, for the convenience of experimental scientists, the ACPred web server was established and made freely available online.

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Section: Resultsmentioning

confidence: 99%

ACPred: A Computational Tool for the Prediction and Analysis of Anticancer Peptides

et al. 2019

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“…In the previous studies, the physicochemical properties (i.e. amino acid sequence, length, net charge, secondary structure, amphipathicity, and hydrophobicity) of peptides play crucial role in their hemolytic activity, penetration ability and anticancer/antitumor activity 1,19,[49][50][51][52] . The three importantly selected PCPs derived from iACP-FSCM consist of MITS020101 (Amphiphilicity index), QIAN88011 (Weights for alpha-helix at the window position of 6) and JOND750101 (Hydrophobicity) were showed in Table 6.…”

Section: Characterization Of Anticancer Activities Of Peptides Using mentioning

confidence: 99%

Improved prediction and characterization of anticancer activities of peptides using a novel flexible scoring card method

Charoenkwan

Chiangjong

Lee

et al. 2021

Sci Rep

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As anticancer peptides (ACPs) have attracted great interest for cancer treatment, several approaches based on machine learning have been proposed for ACP identification. Although existing methods have afforded high prediction accuracies, however such models are using a large number of descriptors together with complex ensemble approaches that consequently leads to low interpretability and thus poses a challenge for biologists and biochemists. Therefore, it is desirable to develop a simple, interpretable and efficient predictor for accurate ACP identification as well as providing the means for the rational design of new anticancer peptides with promising potential for clinical application. Herein, we propose a novel flexible scoring card method (FSCM) making use of propensity scores of local and global sequential information for the development of a sequence-based ACP predictor (named iACP-FSCM) for improving the prediction accuracy and model interpretability. To the best of our knowledge, iACP-FSCM represents the first sequence-based ACP predictor for rationalizing an in-depth understanding into the molecular basis for the enhancement of anticancer activities of peptides via the use of FSCM-derived propensity scores. The independent testing results showed that the iACP-FSCM provided accuracies of 0.825 and 0.910 as evaluated on the main and alternative datasets, respectively. Results from comparative benchmarking demonstrated that iACP-FSCM could outperform seven other existing ACP predictors with marked improvements of 7% and 17% for accuracy and MCC, respectively, on the main dataset. Furthermore, the iACP-FSCM (0.910) achieved very comparable results to that of the state-of-the-art ensemble model AntiCP2.0 (0.920) as evaluated on the alternative dataset. Comparative results demonstrated that iACP-FSCM was the most suitable choice for ACP identification and characterization considering its simplicity, interpretability and generalizability. It is highly anticipated that the iACP-FSCM may be a robust tool for the rapid screening and identification of promising ACPs for clinical use.

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“…Among them ( Figure 21 ), G3 is optimal with potent bioactivity (MIC E.coli (μM) = 8; MIC B. subtilis (μM) = 2) and low cytotoxicity (IC 50 (μM) = 15 (HeLa cells); = 25 HL60 cells) to the host mammalian cells. Hydrophobic modifications of G3 have been created by replacing the amino acid residues at the peptide N-terminals or C-terminals or the side chains [ 210 , 211 ]. The high selectivity and associated features are attributed to two design tactics: the use of Ile residues rather than Leu and the perturbation of the hydrophobic face of the helical structure with the insertion of a positively charged Lys residue.…”

Section: Mimicking the Structure Of Ampsmentioning

confidence: 99%

The Best Peptidomimetic Strategies to Undercover Antibacterial Peptides

Lachowicz

Szczepski

Scano

et al. 2020

IJMS

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Health-care systems that develop rapidly and efficiently may increase the lifespan of humans. Nevertheless, the older population is more fragile, and is at an increased risk of disease development. A concurrently growing number of surgeries and transplantations have caused antibiotics to be used much more frequently, and for much longer periods of time, which in turn increases microbial resistance. In 1945, Fleming warned against the abuse of antibiotics in his Nobel lecture: “The time may come when penicillin can be bought by anyone in the shops. Then there is the danger that the ignorant man may easily underdose himself and by exposing his microbes to non-lethal quantities of the drug make them resistant”. After 70 years, we are witnessing the fulfilment of Fleming’s prophecy, as more than 700,000 people die each year due to drug-resistant diseases. Naturally occurring antimicrobial peptides protect all living matter against bacteria, and now different peptidomimetic strategies to engineer innovative antibiotics are being developed to defend humans against bacterial infections.

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Surface Physical Activity and Hydrophobicity of Designed Helical Peptide Amphiphiles Control Their Bioactivity and Cell Selectivity

Cited by 49 publications

References 45 publications

ACPred: A Computational Tool for the Prediction and Analysis of Anticancer Peptides

ACPred: A Computational Tool for the Prediction and Analysis of Anticancer Peptides

Improved prediction and characterization of anticancer activities of peptides using a novel flexible scoring card method

The Best Peptidomimetic Strategies to Undercover Antibacterial Peptides

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