Young‐Guen Park scite author profile

Enterococcus faecalis is a Gram-positive, commensal bacterium that lives in the gastrointestinal tracts of humans and other mammals. It causes severe infections because of high antibiotic resistance. E. faecalis can endure extremes of temperature and pH. Acyl carrier protein (ACP) is a key element in the biosynthesis of fatty acids responsible for acyl group shuttling and delivery. In this study, to understand the origin of high thermal stabilities of E. faecalis ACP (Ef-ACP), its solution structure was investigated for the first time. CD experiments showed that the melting temperature of Ef-ACP is 78.8°C, which is much higher than that of Escherichia coli ACP (67.2°C). The overall structure of Ef-ACP shows the common ACP folding pattern consisting of four ␣-helices (helix I (residues 3-17), helix II (residues 39 -53), helix III (residues 60 -64), and helix IV (residues 68 -78)) connected by three loops. Unique Ef-ACP structural features include a hydrophobic interaction between Phe 45 in helix II and Phe 18 in the ␣ 1 ␣ 2 loop and a hydrogen bonding between Ser 15 in helix I and Ile 20 in the ␣ 1 ␣ 2 loop, resulting in its high thermal stability. Phe 45 -mediated hydrophobic packing may block acyl chain binding subpocket II entry. Furthermore, Ser 58 in the ␣ 2 ␣ 3 loop in Ef-ACP, which usually constitutes a proline in other ACPs, exhibited slow conformational exchanges, resulting in the movement of the helix III outside the structure to accommodate a longer acyl chain in the acyl binding cavity. These results might provide insights into the development of antibiotics against pathogenic drug-resistant E. faecalis strains.

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Peptoid-Substituted Hybrid Antimicrobial Peptide Derived from Papiliocin and Magainin 2 with Enhanced Bacterial Selectivity and Anti-inflammatory Activity

Shin

Lee

Jeon

et al. 2015

Biochemistry

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Antimicrobial peptides (AMPs) are important components of the host innate immune system. Papiliocin is a 37-residue AMP purified from larvae of the swallowtail butterfly Papilio xuthus. Magainin 2 is a 23-residue AMP purified from the skin of the African clawed frog Xenopus laevis. We designed an 18-residue hybrid peptide (PapMA) incorporating N-terminal residues 1-8 of papiliocin and N-terminal residues 4-12 of magainin 2, joined by a proline (Pro) hinge. PapMA showed high antimicrobial activity but was cytotoxic to mammalian cells. To decrease PapMA cytotoxicity, we designed a lysine (Lys) peptoid analogue, PapMA-k, which retained high antimicrobial activity but displayed cytotoxicity lower than that of PapMA. Fluorescent dye leakage experiments and confocal microscopy showed that PapMA targeted bacterial cell membranes whereas PapMA-k penetrated bacterial cell membranes. Nuclear magnetic resonance experiments revealed that PapMA contained an N-terminal α-helix from Lys(3) to Lys(7) and a C-terminal α-helix from Lys(10) to Lys(17), with a Pro(9) hinge between them. PapMA-k also had two α-helical structures in the same region connected with a flexible hinge residue at Nlys(9), which existed in a dynamic equilibrium of cis and trans conformers. Using lipopolysaccharide-stimulated RAW264.7 macrophages, the anti-inflammatory activity of PapMA and PapMA-k was confirmed by inhibition of nitric oxide and inflammatory cytokine production. In addition, treatment with PapMA and PapMA-k decreased the level of ultraviolet irradiation-induced expression of genes encoding matrix metalloproteinase-1 (MMP-1), interleukin-6 (IL-6), and tumor necrosis factor-α (TNF-α) in human keratinocyte HaCaT cells. Thus, PapMA and PapMA-k are potent peptide antibiotics with antimicrobial and anti-inflammatory activity, with PapMA-k displaying enhanced bacterial selectivity.

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Structure and Backbone Dynamics of Vanadate-Bound PRL-3: Comparison of ¹⁵N Nuclear Magnetic Resonance Relaxation Profiles of Free and Vanadate-Bound PRL-3

et al. 2014

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Phosphatases of regenerating liver (PRLs) constitute a novel class of small, prenylated phosphatases with oncogenic activity. PRL-3 is particularly important in cancer metastasis and represents a potential therapeutic target. The flexibility of the WPD loop as well as the P-loop of protein tyrosine phosphatases is closely related to their catalytic activity. Using nuclear magnetic resonance spectroscopy, we studied the structure of vanadate-bound PRL-3, which was generated by addition of sodium orthovanadate to PRL-3. The WPD loop of free PRL-3 extended outside of the active site, forming an open conformation, whereas that of vanadate-bound PRL-3 was directed into the active site by a large movement, resulting in a closed conformation. We suggest that vanadate binding induced structural changes in the WPD loop, P-loop, helices α4-α6, and the polybasic region. Compared to free PRL-3, vanadate-bound PRL-3 has a longer α4 helix, where the catalytic R110 residue coordinates with vanadate in the active site. In addition, the hydrophobic cavity formed by helices α4-α6 with a depth of 14-15 Å can accommodate a farnesyl chain at the truncated prenylation motif of PRL-3, i.e., from R169 to M173. Conformational exchange data suggested that the WPD loop moves between open and closed conformations with a closing rate constant k(close) of 7 s(-1). This intrinsic loop flexibility of PRL-3 may be related to their catalytic rate and may play a role in substrate recognition.

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Anti‐Inflammatory Activities of Biapigenin Mediated by Actions on p38 MAPK Pathway

Jnawali

Park

Jeon

et al. 2015

Bulletin Korean Chem Soc

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Biapigenin is a naturally occurring biflavonoid found in Selaginella tamariscina. This study aimed to investigate the anti-inflammatory activity of biapigenin and its mechanisms of action, and to identify possible target proteins. Biapigenin suppressed nitric oxide (NO) production, as well as tumor necrosis factor (TNF)-α, interleukin (IL)-1β, and macrophage inflammatory protein (MIP)-2 cytokine release. Moreover, biapigenin completely inhibited IL-1β, inducible nitric oxide synthases (iNOS), and MIP-2 mRNA expression and partially suppressed MIP-1 and TNF-α expression. Lipopolysaccharide (LPS)-induced upregulation of p38 mitogenactivated protein kinase (MAPK) phosphorylation was significantly reduced by biapigenin. Fluorescence titration experiment revealed that biapigenin bound to p38 with a high binding affinity of 2.57 × 10 6 M −1. These results suggest that biapigenin demonstrates anti-inflammatory activities by the regulation of phosphorylation of p38 MAPK pathway. Our results strongly suggest that biapigenin may be a potent biflavonoid inhibitor of p38 MAPK and have therapeutic applications in the treatment of inflammatory diseases.

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Young‐Guen Park

Novel Structural Components Contribute to the High Thermal Stability of Acyl Carrier Protein from Enterococcus faecalis

Peptoid-Substituted Hybrid Antimicrobial Peptide Derived from Papiliocin and Magainin 2 with Enhanced Bacterial Selectivity and Anti-inflammatory Activity

Structure and Backbone Dynamics of Vanadate-Bound PRL-3: Comparison of ¹⁵N Nuclear Magnetic Resonance Relaxation Profiles of Free and Vanadate-Bound PRL-3

Anti‐Inflammatory Activities of Biapigenin Mediated by Actions on p38 MAPK Pathway

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Young‐Guen Park

Novel Structural Components Contribute to the High Thermal Stability of Acyl Carrier Protein from Enterococcus faecalis

Peptoid-Substituted Hybrid Antimicrobial Peptide Derived from Papiliocin and Magainin 2 with Enhanced Bacterial Selectivity and Anti-inflammatory Activity

Structure and Backbone Dynamics of Vanadate-Bound PRL-3: Comparison of 15N Nuclear Magnetic Resonance Relaxation Profiles of Free and Vanadate-Bound PRL-3

Anti‐Inflammatory Activities of Biapigenin Mediated by Actions on p38 MAPK Pathway

Contact Info

Product

Resources

About

Structure and Backbone Dynamics of Vanadate-Bound PRL-3: Comparison of ¹⁵N Nuclear Magnetic Resonance Relaxation Profiles of Free and Vanadate-Bound PRL-3