Red Algae Extract Fights Ebola, HIV, SARS and HCV

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Title : Red Algae Extract Fights Ebola, HIV, SARS and HCV
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Red Algae Extract Fights Ebola, HIV, SARS and HCV

HIV and Hepatitis-C while fearing SARS - nature has already provided a natural treatment
.
research has shown that a strong healthy immune system can allow a person to not only avoid contracting the disease -., But become resistant to it, so

for those of us who need help or assurance extract red algae test to provide an antiviral key.

Hunting Natural immunity to the Ebola


After of the two 1,996 outbreaks of Ebola in Gabon Africa, medical scientists determined that about Ebola cause of death in about 70 percent of people who contracted the virus.

This question led the researchers Franceville International Centre for Medical Research Gabon to investigate. The questions came: Why not do the other 30 percent die? How do 30 percent of those infected recover?

Moreover, medical researchers have found many cases where there were close contacts of those infected who were never infected at all. Although they were in contact with the infected patient while the patient was symptomatic.

Note: An infected by Ebola virus should be symptomatic patient in order to be contagious - with fever and other flu-like symptoms. A person should also have the mucosa or blood contact in order to become infected with the virus. This means a transfer of saliva, urine, semen or blood of one person to another.

Therefore, when researchers investigated "close contact" individuals, they focused on those with this type of exposure.

Antibodies Ebola

The research found that nearly half of those who were asymptomatic and apparently immune developed antibodies (IgM and IgG) against the Ebola virus.

This means that these individuals were certainly closely exposed to the virus, but just naturally developed immunity tools - including those discussed below -. Which prevented infection out of control replication

In addition, the asymptomatic group exhibited greater anti-inflammatory responses in general. They were found to have higher levels of cytokines and chemokines in circulation -. Accelerating the body's natural ability to break down virus cells and disrupt their activity within the body

They came to the conclusion:
"Asymptomatic individuals had a strong inflammatory response by circulating high concentrations of cytokines and chemokines. "
Attack Mannose-Binding Lectins Ebola Virus

The particular mechanism by which the body breaks down naturally down and prevents infection of lethal infections including Ebola, HIV , HCV and SARS has gradually emerged.

The mechanism is called mannose binding lectins. mannose binding lectins are apparently occur in the human body through a DNA sequence, called the MBL2.

When this part of our genes is in order, the body will produce and release these mannose-binding lectin in the bloodstream. Mannose-binding lectins then recognize and involve certain carbohydrate molecules that cover and make various microorganisms.

These include fungi, bacteria and even parasites, using glycoprotein shells to protect themselves. But also they include virus. Once lectins bind to these deposits, the surface of the microbe and basically decompose will break, allowing the body other immune cells to kill microbes and prevent multiply.

Indeed, a healthy body that produces good levels of these lectins mannose binding will be able to easily fight colds and flus and other microbial infections. Several animal studies have shown mannose binding lectins heart beat down coronavirus and infectious bronchitis.

Research over the past five years has been discovered that low levels of mannose-binding lectin increases the risk of respiratory infections, including respiratory syncytial virus infection, pneumonia and others.

For example, in a study of 121 children, RSV-infections were associated with low levels of mannose-binding lectin. Nearly 70 percent of RSV-infected children had low levels of mannose-binding lectin. But other infections - especially those related to bacterial infections -. They are not necessarily related to levels of mannose binding lectin

When it comes to viral infections such as Ebola, Hepatitis C and HIV, however, they are different. These virus glycoprotein come with shells that protect the virus from their decomposition.

In addition, the shell Ebola virus glycoprotein produces glycoproteins that damage cells, allowing the virus to penetrate and replicate within the cell.

mannose binding lectins actually this shell and glycoprotein matrix decomposes through a mechanism called the lectin pathway.

Humans who do not produce enough of these mannose-binding lectins are not only more susceptible because they do not have enough lectins, but usually are also immunosuppressed with the rest of your immune system.

One reason some humans do not produce enough mannose binding lectins is due to a slight genetic mutation, where the gene MBL2 off. The reason for this mutation on / off is not yet fully understood. (Guess -. Something to do with our toxic environment and / or nutritional deficiency)

Mannose-Binding Lectins red algae

This brings us to the fun part . Yes, humans are not the only creatures that produce mannose-binding lectin. Red algae also produce these profusely, allowing algae to protect themselves from the virus invasion.

The most promising form of mannose binding lectin is a component of red algae called Scytovirin varium Scytonema. The protein extract was isolated by researchers at the National Cancer Institute in Frederick, Maryland in 2003. The protein contains 95 amino acids, and found to bind to HIV-1 viral shells.

A similar antiviral protein was found in Nostoc ellipsosporum - called Cyanovirin-N. Both antiviral proteins did similar things -. They broke the shells of HIV and HCV glycoprotein

However, another anti-viral extract is from red algae species New Zealand, Griffithsia sp. This protein is called Griffithsin, abbreviated GRFT.

In the coming years, Griffithsin was tested against HIV-1 successfully in laboratory studies that included studies with mice. Virus-potential SARS epidemic was also tested against Griffithsin, also with great success.

Multiple studies illustrate these effects. Research Center for Cancer Research in Frederick, Maryland found that not only stopped Griffithsin HIV-1 virus replication, cell intrusion virus but stopped.

In 2010, Harvard researchers tested a recombinant version of Griffithsin - called rhMBL - against Ebola. Again, they found lectins mannose binding were able to not only the shells breakdown Ebola virus, but when administered to mice infected with Ebola, mice were made immune to the virus.

Yes, when the mice receiving the recombinant binding lectins mannose were tested again with the Ebola virus, which turned out to be immune to the Ebola virus.

Since the study other research has proven Griffithsin other animals with similar results.

recombinant Griffithsin produced in Nicotiana benthamiana plants
As modern medical researchers are continually striving for isolated versions and synthesized nature capable of being patented, recombinant versions of Griffithsin finally were produced using plants Nicotiana benthamiana (a relative of the plant snuff). These plants were genetically modified so that they could produce the same mannose binding lectins.

This form of Griffithsin was tested in mice and HIV-1-infected guinea pigs, antiviral successful results.

This is also found when the recombinant Griffithsin tested on mice infected with Ebola. In all studies, the Griffithsin was found to be safe and tolerated.

As to whether the red algae can be taken naturally to boost immunity, there is no doubt that this is the case. Before this antiviral research has exploded in biopharmaceutical research, red algae had shown to have antiviral and anticancer effects.

So the most logical answer is "yes" - certainly the consumption of red seaweed in supplement form has been found to increase the antiviral and available research immunity, blood levels of lectins mannose binding. This is due in turn to boost immunity and create a natural method of preventing and even treating viral infections such as Ebola, SARS, HIV and hepatitis-C.

Of course, this strategy should be used with other natural immune-boosting strategies.

Other plants also produce these mannose-binding lectin, some of which have been used in traditional medicine. A study by the University of Leuven Belgium of 33 different plant lectins studied and found 10 different lectins mannose binding between plants that inhibit coronavirus, and intervened in the replication cycle of SARS-CoV.

Consult your healthcare professional if you are sick.

If the Adams Green Med Info ; | References here .

Case Adams is a California naturopath and holds a Ph.D. in Natural Health Sciences. His focus is on natural health solutions based on science. He is the author of 25 books natural health and numerous print and Internet articles. His articles and books can be found in plantmedicines.org and Healing Naturally - and many of his books are available for immediate download in the library GreenMedinfo book


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