| General information | |
| ACovPid: | ACoVP100004 |
| Trivial Name: | EK1C4 |
| Amino Acids Sequence: | SLDQINVTFLDLEYEMKKLEEAIKKLEESYIDLKELGSGSG-PEG4-Chol |
| Length: | 41 |
| C-Terminal Modification: | Chol: cholesterol; |
| N-Terminal Modification: | None |
| Chemical Modification: | PEG4: polyethylene glycol 4-based spacer; |
| Peptide Source: | Human coronavirus OC43 (HCoV-OC43) : 31631 |
| Source Description: | Peptide OC43-HR2P was derived from the HR2 domain of HCoV-OC43. EK1 was the optimized form of OC43-HR2P,and EK1C4 was the optimized form of EK1. |
| Against Virus: | Human coronavirus 229E (HCoV-229E) : 11137 |
| Inhibition Value Type: | IC50 |
| Inhibitory Effect: | 0.1015 |
| Inhibitory Unit: | µM |
| Target Domain Name: | HR1 domain of HCoV-229E |
| Assay: | Cytopathic effect assay |
| Assay Description: | To test the effect of peptide on HCoV-229E replication, 50 µL of 100 TCID50 virus were mixed with an equal volume of peptide and incubated at 37 °C for 1 h. Afterwards, the mixture was added to RD, Huh-7 and LLC-MK2 cells, respectively. Cell Counting Kit-8 (CCK8, Dojindo, Kumamoto, Kyushu, Japan) assay was applied to determine cytopathic effect. |
| Anti-CoV activity in vivo: | We used an HCoV-OC43 infection mouse model to further investigate the potential prophylactic effect of EK1C4 in clinical applications via the intranasal administration route (Fig. 6f, g). In the OC43-infected mouse model, we treated newborn mice with EK1C4 at a single dose of 0.5 mg/kg 0.5 h (Pre-0.5), 2 h (Pre-2), 4 h (Pre-4), 12 (Pre-12) and 24 h (Pre-24) before challenging with HCoV-OC43 at 100 TCID50 (50% tissue culture infectious dose). Starting from 4 days’ post-infection (dpi), the body weight of mice in the viral control group decreased significantly along with 100% mortality (Fig. 6f, g). The final survival rates of mice in Pre-0.5, Pre-2, Pre-4, Pre-12 and Pre-24 groups were 100%, 100%, 100%, 83 and 0%, respectively (Fig. 6f, g). In contrast, EK1 with a single dose of 20 mg/kg via nasal administration exhibited very promising prophylactic effect in the Pre-0.5 h and Pre-1 h groups, whereas all mice in the EK1-Pre-2 h group eventually died similarly to the mice in the viral control group (Supplementary information, Fig. S5). These results suggested that EK1C4 has better stability, antiviral activity, and prolonged half-life in the airway environment when compared with EK1. We then tested the therapeutic effect of EK1C4 0.5 h (Post-0.5 group) and 2 h (Post-2 group) after HCoV-OC43 infection (Fig. 6h, i). The Post-0.5 group and Post-2 group mice showed 100% and 16.7% survival rate, respectively, suggesting that EK1C4 harbors good therapeutic effect after a short period of HCoV-OC43 infection, possibly resulting from the establishment of HCoVOC43 infection in mouse brain where EK1C4 cannot get through the blood brain barrier via nasal administration.14 As shown in Supplementary information, Fig. S6, high viral titer was detected in brains of all 5 mice in Pre-24 group and 4 out of 5 mice in Post-2 group, but was not detected in brain tissues of all mice in Pre-0.5, Pre-2, Pre-4, and Post-0.5 groups, while only moderate level of viral titer was detected in brain tissue in one of the 5 mice in Pre- 12 group (Supplementary information, Fig. S6a, b). Similar to those in the viral control mice, mice in Pre-24 and Post-2 groups exhibited similar histopathological changes in brain tissues, including vacuolation, degeneration, and infiltration. However, the brain tissues of mice in Pre-0.5, Pre-2, Pre-4, Pre-12 and Post- 0.5 group as well as the normal control group showed no apparent histopathological changes (Supplementary information, Fig. S6c). |
| Reference: | 32231345 |
| Comment: | EK1C4 was the most potent fusion inhibitor against SARS-CoV-2 S protein-mediated membrane fusion and pseudovirus infection with IC50s of 1.3 and 15.8 nM, about 241- and 149-fold more potent than the original EK1 peptide, respectively. EK1C4 was also highly effective against membrane fusion and infection of other human coronavirus pseudoviruses tested, including SARS-CoV and MERS-CoV, as well as SARSr-CoVs, and potently inhibited the replication of 5 live human coronaviruses examined, including SARS-CoV-2. Intranasal application of EK1C4 before or after challenge with HCoV-OC43 protected mice from infection, suggesting that EK1C4 could be used for prevention and treatment of infection by the currently circulating SARS-CoV-2 and other emerging SARSr-CoVs. |
| 3D structure: | |
| Structure Experiment Verified: | |
| Similar Peptides: | ACoVP100011 ACoVP100010 ACoVP100009 ACoVP100008 ACoVP100007 |
| Target Domain information | |
| Target Domain Full Name: | Heptad repeat 1 (HR1) domain of Human coronavirus 229E (HCoV-229E) spike glycoprotein |
| Target Type: | glycoprotein |
| UniprotID [Sequence]: | P15423 [767-886] |
| Target Synonyms: | Alternative name(s) for spike glycoprotein: E2 Peplomer protein S glycoprotein |
| Target Source: | Human coronavirus 229E (HCoV-229E) : 11137 |
| Target Structure: | 5YL9, 5ZHY, 5ZUV, 6ATK, 6U7H, 7CYC, 7CYD |