Drink Schweppes Quinine Water to cure a cold or flu (That's what the "horrible horrible WooHoo Corona virus" is. Its a fucking flu... Big whoop!). Why not? On February 8, 2020 9:18:29 PM PST, jim bell <jdb10987@yahoo.com> wrote:

[chloroquine is an old-line drug typically used against malaria] [partial quote follows]

https://www.asbmb.org/asbmb-today/science/020620/could-an-old-malaria-drug-h...

ASBMB Today Science Could an old malaria drug help fight the new coronavirus? Could an old malaria drug help fight the new coronavirus? By John Arnst February 06, 2020

Chloroquine might be getting new life as an antiviral treatment for the novel coronavirus that emerged in Wuhan, China in late 2019 and has infected some 25,000 people in more than 25 countries. For decades, the drug was a front-line treatment and prophylactic for malaria.

In a three-page paper published Tuesday in Cell Research, scientists at the Wuhan Institute of Virology’s State Key Laboratory of Virology write that both chloroquine and the antiviral remdesivir were, individually, “highly effective” at inhibiting replication of the novel coronavirus in cell culture. Their drug screen evaluated five other drugs that were not effective. The authors could not be reached for comment.

Though the paper is brief, John Lednicky, a professor at the University of Florida’s Emerging Pathogens Institute, found its results intriguing. “It’s interesting in that it really lacks a lot of details but, nevertheless, if you look at the data as presented, at least in vitro, it seems like chloroquine can be used as an early-stage drug,” he said. “It would be very good if these types of experiments were repeated by more laboratories to see whether the same results occur across the board.”

Chloroquine is a synthetic form of quinine, a compound found in the bark of cinchona trees native to Peru and used for centuries to treat malaria.

Chloroquine was an essential element of mass drug administration campaigns to combat malaria throughout the second half of the 20th century, and remains one of the World Health Organization’s essential medicines. However, after the malaria parasites Plasmodium falciparum and Plasmodium vivax began exhibiting resistance to the drug in the 1960s and 1980s, respectively, it was replaced by similar antimalarial compounds and combination therapies. Chloroquine is still widely used against the three other species of plasmodium and to treat autoimmune disorders and some cases of amebiasis, an intestinal infection caused by the amoeba Entamoeba histolytica.

Chloroquine’s antiviral properties were explored in the mid-1990s against HIV and in the following decade against severe acute respiratory syndrome, or SARS, which is closely related to the novel coronavirus. In 2004, researchers in Belgium found that chloroquine inhibited replication of SARS in cell culture. The following year, however, another team at Utah State University and the Chinese University of Hong Kong evaluated a gamut of compounds against SARS replication in mice infected with the virus, finding that chloroquine was only effective as an anti-inflammatory agent. They recommended that it could be used in combination with compounds that prevent replication. Nevertheless, in 2009, the Belgian group found that lethal infections of human coronavirus OC43, a relative of SARS, could be averted in newborn mice by administering chloroquine through the mother’s milk.

[end of partial quote]

Also:

https://www.nature.com/articles/s41422-020-0282-0

Remdesivir and chloroquine effectively inhibit the recently emerged novel coronavirus (2019-nCoV) in vitro Manli Wang, Ruiyuan Cao, Leike Zhang, Xinglou Yang, Jia Liu, Mingyue Xu, Zhengli Shi, Zhihong Hu, Wu Zhong & Gengfu Xiao 

Cell Research (2020)Cite this article

171k Accesses

1108 Altmetric

Metrics details

Dear Editor,

In December 2019, a novel pneumonia caused by a previously unknown pathogen emerged in Wuhan, a city of 11 million people in central China. The initial cases were linked to exposures in a seafood market in Wuhan.1 As of January 27, 2020, the Chinese authorities reported 2835 confirmed cases in mainland China, including 81 deaths. Additionally, 19 confirmed cases were identified in Hong Kong, Macao and Taiwan, and 39 imported cases were identified in Thailand, Japan, South Korea, United States, Vietnam, Singapore, Nepal, France, Australia and Canada. The pathogen was soon identified as a novel coronavirus (2019-nCoV), which is closely related to sever acute respiratory syndrome CoV (SARS-CoV).2 Currently, there is no specific treatment against the new virus. Therefore, identifying effective antiviral agents to combat the disease is urgently needed.

An efficient approach to drug discovery is to test whether the existing antiviral drugs are effective in treating related viral infections. The 2019-nCoV belongs to Betacoronavirus which also contains SARS-CoV and Middle East respiratory syndrome CoV (MERS-CoV). Several drugs, such as ribavirin, interferon, lopinavir-ritonavir, corticosteroids, have been used in patients with SARS or MERS, although the efficacy of some drugs remains controversial.3 In this study, we evaluated the antiviral efficiency of five FAD-approved drugs including ribavirin, penciclovir, nitazoxanide, nafamostat, chloroquine and two well-known broad-spectrum antiviral drugs remdesivir (GS-5734) and favipiravir (T-705) against a clinical isolate of 2019-nCoV in vitro.

Standard assays were carried out to measure the effects of these compounds on the cytotoxicity, virus yield and infection rates of 2019-nCoVs. Firstly, the cytotoxicity of the candidate compounds in Vero E6 cells (ATCC-1586) was determined by the CCK8 assay. Then, Vero E6 cells were infected with nCoV-2019BetaCoV/Wuhan/WIV04/20192 at a multiplicity of infection (MOI) of 0.05 in the presence of varying concentrations of the test drugs. DMSO was used in the controls. Efficacies were evaluated by quantification of viral copy numbers in the cell supernatant via quantitative real-time RT-PCR (qRT-PCR) and confirmed with visualization of virus nucleoprotein (NP) expression through immunofluorescence microscopy at 48 h post infection (p.i.) (cytopathic effect was not obvious at this time point of infection). Among the seven tested drugs, high concentrations of three nucleoside analogs including ribavirin (half-maximal effective concentration (EC50) = 109.50 μM, half-cytotoxic concentration (CC50) > 400 μM, selectivity index (SI) > 3.65), penciclovir (EC50 = 95.96 μM, CC50 > 400 μM, SI > 4.17) and favipiravir (EC50 = 61.88 μM, CC50 > 400 μM, SI > 6.46) were required to reduce the viral infection (Fig. 1a and Supplementary information, Fig. S1). However, favipiravir has been shown to be 100% effective in protecting mice against Ebola virus challenge, although its EC50 value in Vero E6 cells was as high as 67 μM,4 suggesting further in vivo studies are recommended to evaluate this antiviral nucleoside. Nafamostat, a potent inhibitor of MERS-CoV, which prevents membrane fusion, was inhibitive against the 2019-nCoV infection (EC50 = 22.50 μM, CC50 > 100 μM, SI > 4.44). Nitazoxanide, a commercial antiprotozoal agent with an antiviral potential against a broad range of viruses including human and animal coronaviruses, inhibited the 2019-nCoV at a low-micromolar concentration (EC50 = 2.12 μM; CC50 > 35.53 μM; SI > 16.76). Further in vivo evaluation of this drug against 2019-nCoV infection is recommended. Notably, two compounds remdesivir (EC50 = 0.77 μM; CC50 > 100 μM; SI > 129.87) and chloroquine (EC50 = 1.13 μM; CC50 > 100 μM, SI > 88.50) potently blocked virus infection at low-micromolar concentration and showed high SI (Fig. 1a, b).

Rr Sent from my Androgyne dee-vice

https://www.forbes.com/sites/lisettevoytko/2020/03/19/trump-says-fda-approve... BREAKING|263,263 views|Mar 19, 2020,12:02pm EDT Updated: Trump Says FDA Approved Anti-Malaria Drug Chloroquine To Test As Coronavirus Treatment Lisette VoytkoForbes StaffBusinessBreaking News Reporter - - - President Trump speaks during a Thursday press briefing with the coronavirus task force.  AP PHOTO/EVAN VUCCI (Updated: 2:22 p.m. EST, March 19, 2020) Topline: President Trump said in a Thursday press briefing that chloroquine and hydroxychloroquine, drugs used to treat malaria and severe arthritis, were approved by the Food and Drug Administration to test as a COVID-19 coronavirus treatment, as the number of cases nationwide continues to increase. - The drugs will be used in a clinical trial, according to FDA commissioner Dr. Stephen Hahn, who spoke during the press briefing. - Trump also said that other antiviral medications will be fast-tracked for FDA approval. - "We will collect that data and make the absolute right decisions based upon those data about the safety and efficacy of the treatments,” said Hahn. - Trump also claimed that the White House has “slashed red tape” to speed up approval for vaccines and other treatments. - Trump added that the FDA approved “compassionate use” for a number of patients, which allows very ill patients to use drugs not yet approved by the agency for widespread use. Crucial quote: “What’s also important is not to provide false hope,” said Hahn, who spoke after Trump, adding, “We may have the right drug, but it might not be in the appropriate dosage form right now, and it might do more harm than good.” Today In: Business What to watch for: Any updates on hydroxychloroquine, chloroquine or other treatments. Trump said he spoke to New York Governor Andrew Cuomo on Wednesday night about chloroquine, and that the governor wanted to be “first in line” to access the drug for the state’s 4,100 coronavirus patients. Key background: The medical journal Clinical Infectious Diseases reported March 9 that Plaquenil, the brand-name version of hydroxychloroquine, was effective in killing the coronavirus in laboratory experiments. Plaquenil was first approved in 1995 and, in addition to treating malaria, is used in patients with lupus or arthritis. Doctors and scientists are working to find an effective treatment for coronavirus, as one does not exist. The first vaccine clinical trial began Monday in Seattle, with the first person to enroll in the trial receiving the vaccine. A number of additional treatments are in various stages of research, testing and commercial release—Forbes has an updated list here. ----- Forwarded Message ----- From: jim bell <jdb10987@yahoo.com>Sent: Saturday, February 8, 2020, 09:18:29 PM PSTSubject: Chloroquine is "highly effective" at inhibiting reproduction of Novel Coronavirus nCov in cell culture. [chloroquine is an old-line drug typically used against malaria] [partial quote follows] https://www.asbmb.org/asbmb-today/science/020620/could-an-old-malaria-drug-h... ASBMB Today Science Could an old malaria drug help fight the new coronavirus? Could an old malaria drug help fight the new coronavirus? By John Arnst February 06, 2020 Chloroquine might be getting new life as an antiviral treatment for the novel coronavirus that emerged in Wuhan, China in late 2019 and has infected some 25,000 people in more than 25 countries. For decades, the drug was a front-line treatment and prophylactic for malaria. In a three-page paper published Tuesday in Cell Research, scientists at the Wuhan Institute of Virology’s State Key Laboratory of Virology write that both chloroquine and the antiviral remdesivir were, individually, “highly effective” at inhibiting replication of the novel coronavirus in cell culture. Their drug screen evaluated five other drugs that were not effective. The authors could not be reached for comment. Though the paper is brief, John Lednicky, a professor at the University of Florida’s Emerging Pathogens Institute, found its results intriguing. “It’s interesting in that it really lacks a lot of details but, nevertheless, if you look at the data as presented, at least in vitro, it seems like chloroquine can be used as an early-stage drug,” he said. “It would be very good if these types of experiments were repeated by more laboratories to see whether the same results occur across the board.” Chloroquine is a synthetic form of quinine, a compound found in the bark of cinchona trees native to Peru and used for centuries to treat malaria. Chloroquine was an essential element of mass drug administration campaigns to combat malaria throughout the second half of the 20th century, and remains one of the World Health Organization’s essential medicines. However, after the malaria parasites Plasmodium falciparum and Plasmodium vivax began exhibiting resistance to the drug in the 1960s and 1980s, respectively, it was replaced by similar antimalarial compounds and combination therapies. Chloroquine is still widely used against the three other species of plasmodium and to treat autoimmune disorders and some cases of amebiasis, an intestinal infection caused by the amoeba Entamoeba histolytica. Chloroquine’s antiviral properties were explored in the mid-1990s against HIV and in the following decade against severe acute respiratory syndrome, or SARS, which is closely related to the novel coronavirus. In 2004, researchers in Belgium found that chloroquine inhibited replication of SARS in cell culture. The following year, however, another team at Utah State University and the Chinese University of Hong Kong evaluated a gamut of compounds against SARS replication in mice infected with the virus, finding that chloroquine was only effective as an anti-inflammatory agent. They recommended that it could be used in combination with compounds that prevent replication. Nevertheless, in 2009, the Belgian group found that lethal infections of human coronavirus OC43, a relative of SARS, could be averted in newborn mice by administering chloroquine through the mother’s milk. [end of partial quote] Also: https://www.nature.com/articles/s41422-020-0282-0 Remdesivir and chloroquine effectively inhibit the recently emerged novel coronavirus (2019-nCoV) in vitro Manli Wang, Ruiyuan Cao, Leike Zhang, Xinglou Yang, Jia Liu, Mingyue Xu, Zhengli Shi, Zhihong Hu, Wu Zhong & Gengfu Xiao  Cell Research (2020)Cite this article 171k Accesses 1108 Altmetric Metrics details Dear Editor, In December 2019, a novel pneumonia caused by a previously unknown pathogen emerged in Wuhan, a city of 11 million people in central China. The initial cases were linked to exposures in a seafood market in Wuhan.1 As of January 27, 2020, the Chinese authorities reported 2835 confirmed cases in mainland China, including 81 deaths. Additionally, 19 confirmed cases were identified in Hong Kong, Macao and Taiwan, and 39 imported cases were identified in Thailand, Japan, South Korea, United States, Vietnam, Singapore, Nepal, France, Australia and Canada. The pathogen was soon identified as a novel coronavirus (2019-nCoV), which is closely related to sever acute respiratory syndrome CoV (SARS-CoV).2 Currently, there is no specific treatment against the new virus. Therefore, identifying effective antiviral agents to combat the disease is urgently needed. An efficient approach to drug discovery is to test whether the existing antiviral drugs are effective in treating related viral infections. The 2019-nCoV belongs to Betacoronavirus which also contains SARS-CoV and Middle East respiratory syndrome CoV (MERS-CoV). Several drugs, such as ribavirin, interferon, lopinavir-ritonavir, corticosteroids, have been used in patients with SARS or MERS, although the efficacy of some drugs remains controversial.3 In this study, we evaluated the antiviral efficiency of five FAD-approved drugs including ribavirin, penciclovir, nitazoxanide, nafamostat, chloroquine and two well-known broad-spectrum antiviral drugs remdesivir (GS-5734) and favipiravir (T-705) against a clinical isolate of 2019-nCoV in vitro. Standard assays were carried out to measure the effects of these compounds on the cytotoxicity, virus yield and infection rates of 2019-nCoVs. Firstly, the cytotoxicity of the candidate compounds in Vero E6 cells (ATCC-1586) was determined by the CCK8 assay. Then, Vero E6 cells were infected with nCoV-2019BetaCoV/Wuhan/WIV04/20192 at a multiplicity of infection (MOI) of 0.05 in the presence of varying concentrations of the test drugs. DMSO was used in the controls. Efficacies were evaluated by quantification of viral copy numbers in the cell supernatant via quantitative real-time RT-PCR (qRT-PCR) and confirmed with visualization of virus nucleoprotein (NP) expression through immunofluorescence microscopy at 48 h post infection (p.i.) (cytopathic effect was not obvious at this time point of infection). Among the seven tested drugs, high concentrations of three nucleoside analogs including ribavirin (half-maximal effective concentration (EC50) = 109.50 μM, half-cytotoxic concentration (CC50) > 400 μM, selectivity index (SI) > 3.65), penciclovir (EC50 = 95.96 μM, CC50 > 400 μM, SI > 4.17) and favipiravir (EC50 = 61.88 μM, CC50 > 400 μM, SI > 6.46) were required to reduce the viral infection (Fig. 1a and Supplementary information, Fig. S1). However, favipiravir has been shown to be 100% effective in protecting mice against Ebola virus challenge, although its EC50 value in Vero E6 cells was as high as 67 μM,4 suggesting further in vivo studies are recommended to evaluate this antiviral nucleoside. Nafamostat, a potent inhibitor of MERS-CoV, which prevents membrane fusion, was inhibitive against the 2019-nCoV infection (EC50 = 22.50 μM, CC50 > 100 μM, SI > 4.44). Nitazoxanide, a commercial antiprotozoal agent with an antiviral potential against a broad range of viruses including human and animal coronaviruses, inhibited the 2019-nCoV at a low-micromolar concentration (EC50 = 2.12 μM; CC50 > 35.53 μM; SI > 16.76). Further in vivo evaluation of this drug against 2019-nCoV infection is recommended. Notably, two compounds remdesivir (EC50 = 0.77 μM; CC50 > 100 μM; SI > 129.87) and chloroquine (EC50 = 1.13 μM; CC50 > 100 μM, SI > 88.50) potently blocked virus infection at low-micromolar concentration and showed high SI (Fig. 1a, b).