SARS-CoV-2 omicron variants are susceptible in vitro to Artemisia annua hot water extracts.

ETHNOPHARMACOLOGICAL RELEVANCE: Artemisia annua L. has >2000 yr of history in treating fever a symptom common to many infectious diseases including viruses. The plant is widely used as a tea infusion in many areas of the globe to thwart many infectious diseases. AIM OF THE STUDY: The SARS-CoV-2 (COVID-19) virus continues to infect millions while rapidly evolving new variants that are more transmissible and evade vaccine-elicited antibodies, e.g., omicron and its subvariants. Having shown potency against all previously tested variants, A. annua L. extracts were further tested against highly infectious omicron and its recent subvariants. MATERIALS AND METHODS: Using Vero E6 cells, we measured the in vitro efficacy (IC50) of stored (frozen) dried-leaf hot-water A. annua L. extracts of four cultivars (A3, BUR, MED, and SAM) against SARS-CoV-2 variants: original WA1 (WT), BA.1 (omicron), BA.2, BA.2.12.1, and BA.4. End point virus titers of infectivity in cv. BUR-treated human lung A459 cells overexpressing hu-ACE2 were determined for both WA1 and BA.4 viruses. RESULTS: When normalized to the artemisinin (ART) or leaf dry weight (DW) equivalent of the extract, the IC50 values ranged from 0.5 to 16.5 µM ART and from 20 to 106 µg DW. IC50 values were within limits of assay variation of our earlier studies. End-point titers confirmed a dose-response inhibition in ACE2 overexpressing human lung cells to the BUR cultivar. Cell viability losses were not measurable at leaf dry weights ≤50 µg for any cultivar extract. CONCLUSIONS: A. annua hot-water extracts (tea infusions) continue to show efficacy against SARS-CoV-2 and its rapidly evolving variants and deserve greater attention as a possible cost-effective therapeutic.

Perception of medical students regarding E-learning during lockdown in COVID–19 pandemic: A cross-sectional study in a medical college, North Kerala

Background: The digital learning in this pandemic era of COVID-19 evolved out in a perplexed environment as a viable alternative to offline or traditional classes. The e-learning carries its own merits as well as demerits, but however, this happened to be the only possible solution in this dreaded situation. With respect to medicos, as they are prone to be exposed to environments connected with Covid infected patients, additional care including online classes turned to be the better option. Aim and Objective: To determine the perception of medical students regarding e-learning during lockdown in COVID-19 pandemic. Settings and Design: A cross-sectional study was conducted among medical students of all the batches in a private medical College, Kozhikode. Methods and Material: Primary data were collected using structured Google questionnaire. Stratified sampling method has been adopted and the sample size was 400. Statistical analysis used: Data analysed using SPSS 18 software. Results: Majority of the participants used Zoom as modality of learning and half of the total participants got adapted to the system over time. During e-learning sessions, most of the medicos expressed their concerns regarding lack of clinical exposure, in addition to their losses in social communication skills. Factors such as the legitimate requirements of clinical phase students, issues of poor internet connectivity and health problems were inclined to demand traditional learning, which were statistically significant. Conclusion: Even though they were subjected to both online and offline methods of education, majority of respondents preferred traditional learning. © 2022, Indian Association of Preventive and Social Medicine. All rights reserved.

A SARS-CoV-2 ferritin nanoparticle vaccine elicits protective immune responses in nonhuman primates

[Figure: see text].

Artemisia annua L. hot-water extracts show potent activity in vitro against Covid-19 variants including delta.

ETHNOPHARMACOLOGICAL RELEVANCE: For millennia, Artemisia annua L. was used in Southeast Asia to treat "fever". This medicinal plant is effective against multiple pathogens and is used by many global communities as a source of artemisinin derivatives that are first-line drugs to treat malaria caused by Plasmodium parasites. AIM OF THE STUDY: The SARS-CoV-2 (Covid-19) global pandemic has killed millions and evolved numerous variants, with delta being the most transmissible to date and causing break-through infections of vaccinated individuals. We further queried the efficacy of A. annua cultivars against new variants. MATERIALS AND METHODS: Using Vero E6 cells, we measured anti-SARS-CoV-2 activity of dried-leaf hot-water A. annua L. extracts of four cultivars, A3, BUR, MED, and SAM, to determine their efficacy against five infectious variants of the virus: alpha (B.1.1.7), beta (B.1.351), gamma (P.1), delta (B.1.617.2), and kappa (B.1.617.1). RESULTS: In addition to being effective against the original wild type (WT) WA1, A. annua cultivars A3, BUR, MED, and SAM were also potent against all five variants. IC50 and IC90 values based on measured artemisinin content ranged from 0.3 to 8.4 µM and 1.4-25.0 µM, respectively. The IC50 and IC90 values based on dried leaf weight (DW) used to make the tea infusions ranged from 11.0 to 67.7 µg DW and 59.5-160.6 µg DW, respectively. Cell toxicity was insignificant at a leaf dry weight of ≤50 µg in the extract of any cultivar. CONCLUSIONS: Results suggest that oral consumption of A. annua hot-water extracts (tea infusions) could potentially provide a cost-effective therapy to help stave off the rapid global spread of these variants, buying time for broader implementation of vaccines.

Artemisia annua L. extracts inhibit the in vitro replication of SARS-CoV-2 and two of its variants.

ETHNOPHARMACOLOGICAL RELEVANCE: Artemisia annua L. has been used for millennia in Southeast Asia to treat "fever". Many infectious microbial and viral diseases have been shown to respond to A. annua and communities around the world use the plant as a medicinal tea, especially for treating malaria. AIM OF THE STUDY: SARS-CoV-2 (the cause of Covid-19) globally has infected and killed millions of people. Because of the broad-spectrum antiviral activity of artemisinin that includes blockade of SARS-CoV-1, we queried whether A. annua suppressed SARS-CoV-2. MATERIALS AND METHODS: Using Vero E6 and Calu-3 cells, we measured anti SARS-CoV-2 activity against fully infectious virus of dried leaf extracts of seven cultivars of A. annua sourced from four continents. IC50s were calculated and defined as the concentrations that inhibited viral replication by 50%; CC50s were also calculated and defined as the concentrations that kill 50% of cells. RESULTS: Hot-water leaf extracts based on artemisinin, total flavonoids, or dry leaf mass showed antiviral activity with IC50 values of 0.1-8.7 µM, 0.01-0.14 µg, and 23.4-57.4 µg, respectively. Antiviral efficacy did not correlate with artemisinin or total flavonoid contents of the extracts. One dried leaf sample was >12 years old, yet its hot-water extract was still found to be active. The UK and South African variants, B1.1.7 and B1.351, were similarly inhibited. While all hot water extracts were effective, concentrations of artemisinin and total flavonoids varied by nearly 100-fold in the extracts. Artemisinin alone showed an estimated IC50 of about 70 µM, and the clinically used artemisinin derivatives artesunate, artemether, and dihydroartemisinin were ineffective or cytotoxic at elevated micromolar concentrations. In contrast, the antimalarial drug amodiaquine had an IC50 = 5.8 µM. Extracts had minimal effects on infection of Vero E6 or Calu-3 cells by a reporter virus pseudotyped by the SARS-CoV-2 spike protein. There was no cytotoxicity within an order of magnitude above the antiviral IC90 values. CONCLUSIONS: A. annua extracts inhibit SARS-CoV-2 infection, and the active component(s) in the extracts is likely something besides artemisinin or a combination of components that block virus infection at a step downstream of virus entry. Further studies will determine in vivo efficacy to assess whether A. annua might provide a cost-effective therapeutic to treat SARS-CoV-2 infections.