Összes szerző

Khamari Delaram

az alábbi absztraktok szerzői között szerepel:

Tasvilla Sonallya
Systematic investigation and classification of host defence and cell penetrating peptides based on their affinity for interaction with extracellular vesicles

Aug 30 - szerda

09:55 – 10:10

Membránok és membránfehérjék biofizikája

E24

Systematic investigation and classification of host defence and cell penetrating peptides based on their affinity for interaction with extracellular vesicles.

Tasvilla Sonallya1,2, Imola Cs. Szigyártó1 , Tünde Juhász1, Edit I. Buzas4,5,6 Delaram Khamari 4,Kinga Ilyes2,3 Zoltán Varga3, and Tamás Beke-Somfai1*

1Institute of Materials and Environmental Chemistry, Biomolecular Self-assembly Research Group, Research Centre for Natural Sciences, Budapest H-1117, Magyar tudósok körútja 2, Hungary,

2Hevesy György PhD School of Chemistry, ELTE Eötvös Loránd University, Budapest H-1117, Pázmány Péter sétány 1/A, Hungary.

3Institute of Materials and Environmental Chemistry, Biological Nanochemistry Research Group, Research Centre for Natural Sciences, Budapest, H-1117, Magyar tudósok körútja 2, Hungary.

4Department of Genetics, Cell and Immunobiology, Semmelweis University, Budapest, Hungary

5HCEMM Extracellular Vesicle Research Group, Semmelweis University, Budapest, Hungary

6ELKH-SE Immune-Proteogenomics Extracellular Vesicle Research Group, Budapest, Hungary.

Host defence peptides (HDP) are promising biomaterials with antimicrobial and anticancer applications. By disturbing or lysing the cell membrane, they carry out their biological role. These peptides show numerous types of membrane interaction mechanisms i.e., carpet, toroidal pore, and barrel stave. Cell penetrating peptide find application in cargo loading and uptake of small molecules and nanoparticles. The interactive mechanism of these peptides has been studied widely with model membranes however our knowledge with extracellular vesicles (EV) is scarce. There are several aspects where EV – HDP interactions could be relevant, ranging from cooperative presence on infection sites functions to EV cargo loading. Hence, based on their in-depth investigation using biophysical techniques, the binding affinity with extracellular vesicles was studied and categorised as low binding affinity, medium binding affinity and high affinity. This initial categorisation gives further insight into its specific interactive mechanism.

Acknowledgment:

This work was funded by the Ministry of Innovation and Technology of Hungary through the National Research, Development and Innovation Office, financed under the TKP2021-EGA-31, the 2020-1-1-2-PIACI-KFI_2020-00021, 2019-2.1.11-TÉT-2019-00091 and KKP_22 project no. 144180. Support from Eötvös Loránd Research Network, grant no. SA-87/2021 and KEP-5/2021 is also acknowledged. Z.V. was supported by the János Bolyai Research Scholarship of the Hungarian Academy of Sciences.

References

1. Singh, P. et al. Removal and identification of external protein corona members from RBC‐derived extracellular vesicles by surface manipulating antimicrobial peptides. J. Extracell. Biol. 2, (2023).

2. Singh, P. et al. Membrane Active Peptides Remove Surface Adsorbed Protein Corona From Extracellular Vesicles of Red Blood Cells. Front. Chem. 8, (2020).