How To Reverse Cell Aging

A team of scientists has found why elderly people are more susceptible to COVID-19 and are working to reverse the aging process of the body’s immune system.

Scientists from the Technion-Israel Institute of Technology say they have found a way to rejuvenate the aging process of the body’s immune system. Prof. Doron Melamed and doctoral student Reem Dowery sought to understand why the elderly population is more susceptible to severe cases of COVID-19 and why the vaccines seem to be less effective and wane faster among this population. The results of their work were published this month in the peer-reviewed, online medical journal Blood.
The secret begins with B cells, also known as B lymphocytes. These are the cells that produce antibodies against any pathogen that enters the body. They play a key role in protecting people from viruses and diseases.
B cells do not just disappear. They turn into “memoryB cells so that if the body is exposed to a previous pathogen, the individual will not get sick. That is because the immune response will be fast and robust, and it will eliminate the pathogen, often without the individual knowing he or she had been exposed to it.


Imagine you are growing into adulthood, and you become an adult and then an older person,” Melamed said. “You accumulate in your body many memory cells. You are exposed all the time to pathogens, and hence you make more and more memory cells. Because these are so long-lived, there is no room left for new B cells.
What happens when a new pathogen, such as the coronavirus, comes along? There are no young B cells that can recognize it. That is one of the reasons why older people are more susceptible to severe COVID-19 and many other diseases. As noted, this happens because of the body’s need for homeostasis, something that Melamed’s lab discovered a decade ago. But this year, they took the discovery another step and figured out a mechanism to override the system.
We found specific hormonal signals produced by the old B cells, the memory cells, that inhibit the bone marrow from producing new B cells,” Melamed said. “This is a huge discovery. It is like finding a needle in a haystack.”

It also means that, over time, specific drugs or treatments can be found to inhibit one of the hormones in the signaling pathway and get the bone marrow to produce new B cells.

Source: http://www.jpost.com/

Orthodontic Surgery Without Incision

Researchers at the Technion-Israel Institute of Technology have developed a nanotechnology that replaces the surgical scalpel with an “enzymatic blade.” In an article published recently in ACS Nano, the researchers describe the application of this technology in a surgical procedure in the oral cavity. The application spares the pain associated with orthodontic surgeries and significantly reduces tissue recovery time.

The study was led by Dr. Assaf Zinger, within the framework of his doctoral research, mentored by Assistant Professor Avi Schroeder, the director of the Laboratory of Targeted Drug Delivery and Personalized Medicine at the Wolfson Faculty of Chemical Engineering. The novel technology is based on rational use of enzymesbiological molecules the body uses to repair itself, as well as on use of nanoparticles for achieving a targeted therapeutic profile.

In the United States alone, approximately five million people undergo orthodontic treatment each year. To speed up treatment, which typically lasts about two years, many undergo invasive surgery, in which collagen fibers that connect the tooth to the underlying bone tissue are cut.

The technology developed at the Technion softens the collagen fibers via the targeted release of collagenase – an enzyme that specifically breaks down collagen. Using techniques developed in Schroeder’s lab, the collagenase is packaged into liposomesnanometric vesicles. As long as the collagenase particles are packaged in the liposome, they are inactive. But with this special nanotechnology, an ointment is applied on the target site, so that the enzyme begins to gradually leak from the liposome and soften the collagen fibers. The researchers performed a series of tests to determine the collagenase concentration optimal for the procedure and to accelerate tissue repair thereafter.

Source: http://t3news.trdf.co.il/