Your search keyword '"PXXP Motif"' showing total 5 results

1. Effects of structural changes on antibacterial activity and cytotoxicity due to proline substitutions in chimeric peptide HnMc.

Author

Park, Seong-Cheol, Lee, Jong-Kook, Kim, Young-Min, and Lee, Jung Ro

Subjects

*PEPTIDES, *CYTOTOXINS, *ANTIMICROBIAL peptides, *ANTIBACTERIAL agents, *HELICAL structure, *PROLINE

Abstract

Owing to the rapidly increasing emergence of multidrug-resistant pathogens, antimicrobial peptides (AMPs) are being explored as next-generation antibiotics. However, AMPs present in nature are highly toxic and exhibit low antibacterial activity. Simple modifications, such as amino acid substitution, can enhance antimicrobial activity and cell selectivity. Herein, we show that HnMc-W, substituted by the Phe1Trp analog of HnMc, a chimeric peptide, resulted in membranolytic antibacterial action and enhanced salt tolerance, whereas HnMc-WP1 with one Ser9Pro substitution resulted in a proline-kink helical structure that increased salt-tolerant antibacterial effects and reduced cytotoxicity. In addition, the HnMc-WP2 peptide, designed with a PXXP motif, had a flexible central hinge in its α-helical structure due to the introduction of two Pro and two Gln (X positions, by deletion of two Gln at positions 16 and 17) residues instead of Ser at position. HnMc-WP2 exhibited excellent antibacterial effects without cytotoxicity in vitro. Moreover, its potent antibacterial activity was demonstrated in a drug-resistant Pseudomonas aeruginosa -infected mouse model in vivo. Our findings provide valuable information for the design of peptides with high antibacterial activity and cell selectivity. • Antibacterial activity is retained in peptides with Trp, Pro, and PXXP substitutions. • N-terminal Trp substitution in antimicrobial peptide HnMc increases salt tolerance. • Cytotoxicity decreases/salt tolerance increases with a kink and helix-hinge-helix. • HnMc-WP2 with a helix-hinge-helix shows excellent antibacterial effects in vivo. [ABSTRACT FROM AUTHOR]

Published

2023

2. Tau-S214 Phosphorylation Inhibits Fyn Kinase Interaction and Increases the Decay Time of NMDAR-mediated Current.

Author

Jos, Sneha, Poulose, Roshni, Kambaru, Archanalakshmi, Gogoi, Hemanga, Dalavaikodihalli Nanjaiah, Nandakumar, Padmanabhan, Balasundaram, Mehta, Bhupesh, and Padavattan, Sivaraman

Subjects

*PATCH-clamp techniques (Electrophysiology), *TAU proteins, *PEPTIDES, *PHOSPHORYLATION, *PROTEIN domains, *PYRAMIDAL neurons, *CRYSTAL structure

Abstract

[Display omitted] • Fyn kinase SH3 domain interaction with PXXP motifs in the Tau protein is implicated in AD pathology and is central to NMDAR function. • Here we report the crystal structure of the Fyn SH3-Tau (207–221) peptide consisting of the 5th and 6th PXXP motif complex to 1.01 Å resolution. • Biophysical studies showed that Tau (207–221) peptide with AD-specific S214-phosphorylation inhibits interaction with the Fyn-SH3 domain. • Single-cell patch clamp electrophysiology in hippocampal pyramidal neurons showed an extended decay of NMDAR-mediated current in the presence of Tau (207–221) with/without pS214. Our findings indicate distinct modes of action for these peptides. Fyn kinase SH3 domain interaction with PXXP motif in the Tau protein is implicated in AD pathology and is central to NMDAR function. Among seven PXXP motifs localized in proline-rich domain of Tau protein, tandem 5th and 6th PXXP motifs are critical to Fyn-SH3 domain interaction. Here, we report the crystal structure of Fyn-SH3 -Tau (207–221) peptide consisting of 5th and 6th PXXP motif complex to 1.01 Å resolution. Among five AD-specific phosphorylation sites encompassing the 5th and 6th PXXP motifs, only S214 residue showed interaction with SH3 domain. Biophysical studies showed that Tau (207–221) with S214-phosphorylation (pS214) inhibits its interaction with Fyn-SH3 domain. The individual administration of Tau (207–221) with/without pS214 peptides to a single neuron increased the decay time of evoked NMDA current response. Recordings of spontaneous NMDA EPSCs at +40 mV indicate an increase in frequency and amplitude of events for the Tau (207–221) peptide. Conversely, the Tau (207–221) with pS214 peptide exhibited a noteworthy amplitude increase alongside a prolonged decay time. These outcomes underscore the distinctive modalities of action associated with each peptide in the study. Overall, this study provides insights into how Tau (207–221) with/without pS214 affects the molecular framework of NMDAR signaling, indicating its involvement in Tau-related pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

3. Characterisation of amphioxus protein kinase C-δ/θ reveals a unique proto-V3 domain suggesting an evolutionary mechanism for PKC-θ unique V3.

Author

Chen, Zhi-long, Gong, Bei-Ni, Wang, Qi-long, Xiao, Zhi-hui, Deng, Chong, Wang, Wen-qian, and Li, Yingqiu

Subjects

*AMPHIOXUS, *PROTEIN kinase C, *MARINE animal physiology, *BIOLOGICAL evolution, *IMMUNE system, *MOLECULAR cloning

Abstract

Abstract A primitive adaptive immune system has recently been suggested to be present in a basal chordate amphioxus (Branchiostoma belcheri, Bb), making it an ideal model for studying the origin of adaptive immune. The novel protein kinase C isoform PKC-θ, but not its closest isoform PKC-δ, plays a critical role for mammalian T-cell activation via translocation to immunological synapse (IS) mediated by a unique PKC-θ V3 domain containing one PxxP motif. To understand the evolution of this unique PKC-θ V3 domain and the primitive adaptive immune system in amphioxus, we comparatively studied the orthologs of PKC-δ and -θ from amphioxus and other species. Phylogenetic analysis showed BbPKC-δ/θ to be the common ancestor of vertebrate PKC-δ and PKC-θ, with a V3 domain containing two PxxP motifs. One motif is conserved in both zebrafish and mammalian PKC-θ but is absent in PKC-δ V3 domain of these species, and has already emerged in drosophila PKC-δ. The other non-conserved motif emerged in BbPKC-δ/θ, and only retained in Danio rerio PKC-δ (DrPKC-δ) but lost in mammalian PKC-δ and -θ. Comparative analyses of the sequence and function of BbPKC-δ/θ, DrPKC-δ, DrPKC-θ and Homo sapiens PKC-θ (HsPKC-θ) in IS translocation and T-cell receptor (TCR)-induced NF-κB activation revealed that retention of the conserved PxxP motif and loss of the non-conserved PxxP motif in mammalian PKC-θ and loss of both PxxP motifs in mammalian PKC-δ accomplish the unique function of PKC-θ in T cells. Together, this study suggests an evolutionary mechanism for PKC-θ unique V3 and reveals BbPKC-δ/θ is the common ancestor of PKC-δ and -θ with a functional proto-V3 domain, supplying new evidence for the existence of primitive adaptive immune system in amphioxus. Highlights • Cloning and sequence analysis of Branchiostoma belcheri PKC-δ/θ (BbPKC-δ/θ). • BbPKC-δ/θ is the common ancestor of vertebrate PKC-δ and PKC-θ. • BbPKC-δ/θ translocates to immune synapse and promotes NF-κB activity in T cells. • BbPKC-δ/θ has a functional proto-V3 domain with two essential PxxP motifs. • Evolutionary retention or loss of PxxP motifs may lead to PKC-θ unique V3 domain. [ABSTRACT FROM AUTHOR]

Published

2019

4. Replacement of the hepatitis E virus ORF3 protein PxxP motif with heterologous late domain motifs affects virus release via interaction with TSG101.

Author

Kenney, Scott P., Wentworth, Jacquelyn L., Heffron, Connie L., and Meng, Xiang-Jin

Subjects

*HEPATITIS E virus, *OPEN reading frames (Genetics), *VIRAL envelopes, *VIRAL replication, *RNA viruses, *VIRUSES

Abstract

The ORF3 protein of hepatitis E virus (HEV) contains a “PSAP” amino acid late domain motif, which allows for interaction with the endosomal sorting complexes required for transport (ESCRT) pathway aiding virion release. Late domain motifs are interchangeable with other viral late domain motifs in several enveloped viruses, however, it remains unknown whether HEV shares this functional interchangeability and what implications this might have on viral replication. In this study, by substituting heterologous late domain motifs (PPPY, YPDL, and PSAA) for the HEV ORF3 late domain (PSAP), we demonstrated that deviation from the PSAP motif reduces virus release as measured by viral RNA in culture media. Virus release could not be restored by insertion of a heterologous late domain motif or by supplying wild-type ORF3 in trans , suggesting that the HEV PSAP motif is required for viral exit which cannot be bypassed by the use of alternative heterologous late domains. [ABSTRACT FROM AUTHOR]

Published

2015

5. Monomer–dimer transition of the conserved N-terminal domain of the mammalian peroxisomal matrix protein import receptor, Pex14p

Author

Su, Jian-Rong, Takeda, Kazuki, Tamura, Shigehiko, Fujiki, Yukio, and Miki, Kunio

Subjects

*EXTRACELLULAR matrix proteins, *CRYSTALLOGRAPHY, *DIMERS, *BINDING sites, *GEL permeation chromatography, *POLYMERASE chain reaction, *SODIUM sulfate, *PROTEIN crosslinking

Abstract

Abstract: Pex14p is a central component of the peroxisomal matrix protein import machinery. In the recently determined crystal structure, a characteristic face consisting of conserved residues was found on a side of the conserved N-terminal domain of the protein. The face is highly hydrophobic, and is also the binding site for the WXXXF/Y motif of Pex5p. We report herein the dimerization of the domain in the isolated state. The homo-dimers are in equilibrium with the monomers. The homo-dimers are completely dissociated into monomers by complex formation with the WXXXF/Y motif peptide of Pex5p. A putative dimer model shows the interaction between the conserved face and the PXXP motif of another protomer. The model allows us to discuss the mechanism of the oligomeric transition of the full-length Pex14p modulated by the binding of other peroxins. [Copyright &y& Elsevier]

Published

2010