Griffithsin vs Coronaviruses

 

Griffithsin vs Coronaviruses

 

On the 18^th of March 2021, there are 120,915,219 confirmed cases of SARS-CoV-2  with 2,674,078 confirmed deaths reported (WHO) 

UPDATE:  As of the 22nd of  November 2021, there are now 258,172,735 confirmed cases of  SARS-CoV-2   and  5,158,642  confirmed  deaths recorded (Johns Hopkins Coronavirus  Resource  Center)

Please note that SARS is an acronym for severe acute respiratory syndrome.  

The SARS-CoV-2 viral infection may cause extreme damage to the respiratory system but also affects other organs of the body.

Coronaviruses are single stranded RNA viruses.  They are enveloped viruses.  The RNA is enclosed inside a protective spherical coat of protein.  These relatively large virions (virus particles) and have around 74 mushroom shaped protrusions, the spikes.  This gives the virion a look that some say resembles a crown, which is the origin of the name coronavirus. Some of the glycoproteins are structural, such as the famous spike protein, and others are glycosylated non-structural proteins.  These envelope and spike glycoproteins play a role in the infection of cells by attaching to a host cell and acting as a doorway for endocytosis or the taking in of the now naked RNA by the receptors of the cell (the envelope does not enter the cell). Once inside the host cell, in the cytoplasm, the RNA can instruct the ribosomes to replicate more of the virus.

Remembering that GRFT is a lectin, with the ability to bind carbohydrates, we can now start to see how the antiviral action of GRFT is to attach to the glycoproteins, such as the spike protein and block the viral entry into the host cell. 

3 deadly coronaviruses, SARS, MERS, and Covid-19

 

SARS coronavirus first appeared in humans in 2002 with 8096 reported cases.

MERS (Middle East respiratory syndrome) had an outbreak in 2012 with 2260 reported cases.

Covid-19 first appeared in 2019

SARS and MERS show a higher percentage of fatalities than Covid-19 with MERS being the most deadly.

Covid-19 is more easily transmissible than SARS or MERS. 

SARS, MERS and Covid-19 were infecting animals, probably bats, at first and then zoonotic transmission occurred, the jump from animal to human.  Besides bats, with MERS, camels were a reservoir of the virus and humans were infected from camels (Please don’t touch a sick camel, or at least wash your hands after).

Once a coronavirus made the jump, human to human transmission spread it quickly. 

 

Is it probable that GRFT can prevent infection by coronaviruses?

We had been doing research related to Griffithsin for a few years and in March 2020 when the covid-19 pandemic was sweeping across the world, we searched through our library of papers and found one, published in the March 2010 issue of Journal of Virology:

Broad-Spectrum In Vitro Activity and In Vivo Efficacy of the Antiviral Protein Griffithsin against Emerging Viruses of the Family Coronaviridae. (O'Keefe BR, Giomarelli B, Barnard DL, Shenoy SR, Chan PK, McMahon JB, Palmer KE, Barnett BW, Meyerholz DK, Wohlford-Lenane CL, McCray PB Jr. Broad-spectrum in vitro activity and in vivo efficacy of the antiviral protein griffithsin against emerging viruses of the family Coronaviridae. J Virol. 2010 Mar;84(5):2511-21. doi: 10.1128/JVI.02322-09. Epub 2009 Dec 23. Erratum in: J Virol. 2010 May;84(10):5456. PMID: 20032190; PMCID: PMC2820936)

This excellent paper shows the results of many experiments.  4 strains of SARS were tested individually in vitro and griffithsin showed remarkable antiviral action, preventing the viral cytopathic cell death from the viral infection.  GRFT bound to the Coronavirus spike protein. Experiments were also successfully performed on other coronaviruses that don’t infect humans but are found in animals.   GRFT was also shown to be of very low toxicity to the host cells.

In vivo experiments were performed on mouse models using a mouse-adapted SARS virus.

Control groups of mice got nothing at all (sham) or only GRFT (control) but the important groups observed were the mice getting SARS virus alone and the group getting both SARS and doses of GRFT.  The griffithsin was applied into the tiny mouse nostrils, because that is a good place to administer it when the virus attacks the respiratory system.  Picture for a moment, scientists in lab coats pipetting into mouse nostrils!  This may have caused the mice some discomfort but it also saved them from dying from SARS.  The mouse group that got only the virus sickened, losing weight, and then 70% of the group died, while 30% recovered. 

The group of lab mice that got the SARS virus and also doses of GRFT up their tiny noses didn’t lose weight and had 100% survival. 

Important points made that stand out:

“Due to the proven threat from

SARS-CoV infections and the possibility of future zoonotic

transmission of coronaviruses, efforts have been initiated to

identify agents that could either reduce infection or suppress

the deleterious cytokine response to SARS-CoV infection”

 

“The broad range of Coronaviridae species sensitive to GRFT is a significant attribute for this antiviral protein, as this group of viruses appears to be capable of continuing zoonotic evolution and transfer to human hosts”

 

10 years later, a novel Coronavirus made the leap from animal to human hosts, there was an outbreak, and the world was unprepared to stop it. As we all know it became a raging global pandemic.

 

In 2016, an article was published in the journal Antiviral Research about in vitro studies done using GRFT to stop MERS from infecting cells:

 

Middle East respiratory syndrome coronavirus infection is inhibited by griffithsin.

Jean K. Millet, Karin Seron, Rachael N. Labitt, Adeline Danneels, Kenneth E. Palmer, Gary R. Whittaker, Jean Dubuisson, Sandrine Belouzard

 

Again, GRFT was shown to bind to the spike protein and prevent infection, this time by the MERS coronavirus.

 

Again, scientists urged more development of griffithsin:

“In conclusion, griffithsin has a low cytotoxicity, likely interacts with any coronavirus spike proteins because of their highly glycosylated nature and is able to hamper coronavirus spike protein functions. Griffithsin should be considered as an interesting drug candidate to develop for the treatment and/or prevention of current but also future emerging coronavirus infections.”

 

3 years later, in Wuhan, China, a novel coronavirus started infecting humans and as humans we were unprepared and defenseless.

 

In a 2020 letter to the editor of Virilogica Sinica, we find confirmation that the entry inhibiting antiviral GRFT also works on the SARS Cov-2

 

Griffithsin with A Broad-Spectrum Antiviral Activity by Binding Glycans in Viral Glycoprotein Exhibits Strong Synergistic Effect in Combination with A Pan-Coronavirus Fusion Inhibitor Targeting SARS-CoV-2 Spike S2 Subunit

Yanxing Cai, Wei Xu, Chenjian Gu, Xia Cai, Di Qu, Lu Lu, Youhua Xie & Shibo Jiang

 

One interesting development reported in this letter regards the pan-coronavirus fusion inhibitor targeting the HR1 domain of human coronavirus spike, EK1 working synergistically with GRFT. 

 

We could easily see from the research that has been done that GRFT has the potential to prevent a coronavirus outbreak from becoming a pandemic.  It may be too late to do anything about the present one that we are facing.  Vaccines have been developed, tested, produced and deployed in one year which is a huge accomplishment.   It’s not a matter of if but a matter of when the next coronavirus makes the leap from animal to human.  We were not prepared for the covid-19 onslaught.  A small but dedicated group of scientists and biohackers, decided to start to prepare for the next outbreak without delay. 

                                                   

To be continued….