Influenza A viruses (IAV) are significant pathogens that result in millions of human infections and impose a substantial health and economic burdens worldwide. Due to the limited anti-influenza A therapeutics available and the emergence of drug resistant viral strains, it is imperative to develop potent anti-IAV agents with different mode of action. In this study, by applying a pseudovirus based screening approach, two super short membrane-active lipopeptides of C12-KKWK and C12-OOWO were identified as effective anti-IAV agents with IC50 value of 7.30±1.57 and 8.48±0.74 mg/L against A/Puerto Rico/8/34 strain, and 6.14±1.45 and 7.22±0.67 mg/L against A/Aichi/2/68 strain, respectively. The mechanism study indicated that the anti-IAV activity of these peptides would result from the inhibition of virus entry by interacting with HA2 subunit of hemagglutinin (HA). Thus, these peptides may have potentials as lead peptides for the development of new anti-IAV therapeutics to block the entry of virus into host cells.
Influenza A virus (IAV) is a severe worldwide threat to public health and economic development that results in the emergence of drug-resistant or highly virulent strains. Therefore, it is imperative to develop potent anti-IAV drugs with different modes of action to currently available drugs. Herein, we show a new class of antiviral peptides generated by conjugating two known short antiviral peptides: part-1 (named Jp with the sequence of ARLPR) and part-2 (named Hp with the sequence of KKWK). The new peptides were thus created by hybridization of these two domains at C- and N- termini, respectively. The anti-IAV screening results identified that C20-Jp-Hp was the most potent peptide with IC50 value of 0.53 μM against A/Puerto Rico/8/34 (H1N1) strain. Interestingly, these new peptides display lower toxicities toward mammalian cells and higher therapeutic indices than their prototypes. In addition, the mechanism of action of C20-Jp-Hp was extensively investigated.
We report on a facile method to detect the aggregation and co-aggregation of peptides by tryptophan fluorescence spectroscopy. Peptide aggregates (PAs) play a pivotal role in neurodegenerative diseases, such as Alzheimer's and Parkinson's. The detection of the formation of aggregates, especially in the early stage, will facilitate the diagnosis and treatment of the associated disease. In this study, by choosing a tryptophan-containing peptide of EP2, we investigated its fluorescence spectroscopic characteristics in the process of PAs. The results showed that the intensity of emission spectra was significantly enhanced with the formation of PAs within 48 h. In addition, by employing EP2 as a fluorescence probe, we found that EP2 was able to effectively monitor the aggregation of other peptides/proteins that are otherwise difficult to detect with conventional approach. Thus, these preliminary data provide a promising diagnostic tool to detect the formation of PAs.
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