Stem Cell Clinic

Cancer: New method tags elusive tumors for targeted therapy – Medical News Today

Researchers have discovered a way to tag cancer cells of tumors that are difficult to target because they lack suitable receptors. They suggest that their approach, which they tested in mice, could lead to new targeted therapies for cancers that do not respond to those currently available, such as triple-negative breast cancer.

The team - including scientists from the University of Illinois at Urbana-Champaign and research centers in China - reports the findings in the journal Nature Chemical Biology.

The method uses small-molecule sugars to produce unique, artificial cell surface receptors on cancer cells.

Study leader Jianjun Cheng, a professor in materials science and engineering at Illinois, explains that there is a lack of targeted therapies for certain cancers because they do not have any of the receptors that available treatments normally target.

One such cancer is triple-negative breast cancer - an aggressive cancer with a low survival rate.

Prof. Cheng says that this got them thinking that perhaps they could create an artificial receptor.

Targeted cancer therapies are treatments that target specific molecules involved in the growth, progression, and spread of cancer. They belong to a relatively new field called precision medicine.

There are several differences between targeted cancer therapy and conventional chemotherapy, the main one being that most chemotherapy treatments target all rapidly dividing cells, including healthy ones.

Targeted cancer therapy aims to single out only cancer cells and leave healthy cells intact. In order to do this, researchers must find features that distinguish the tumor cells of a particular cancer from healthy cells, so that the treatment can target those features specifically.

One feature that can differentiate cancer cells from healthy cells is the cell surface receptor, a type of molecule that protrudes on the outside of the cell and acts as a conduit for signals between the cell and its environment.

Scientists can devise antibodies that seek out the receptors that are specific to cancer cells in order to deliver targeted drugs or imaging agents.

However, some cancers are notoriously difficult to distinguish in this way because they lack suitable surface receptors.

One such cancer is triple-negative breast cancer. Tumor cells of this type of cancer lack the three most common types of receptor known to drive most breast cancer growth: estrogen receptors, progesterone receptors, and human epidermal growth factor receptor 2 (HER2).

Prof. Cheng and colleagues found a way to insert unique molecules into cancer cells that the cells metabolize into cell surface receptors, without the molecules affecting healthy cells.

The molecules belong to a class of small-molecule sugars called azides. The cancer cell metabolizes the molecules and expresses them on their cell surfaces, where they can be uniquely targeted by another molecule called DBCO, as Prof. Cheng explains:

"It's very much like a key in a lock. They are very specific to each other. DBCO and azide react with each other with high specificity. We call it click chemistry. The key question is, how do you put azide just on the tumor?"

To ensure that the azide would only be expressed by the cancer cells, the team attached a chemical group to the azide that only enzymes in the cancer cell can remove.

The modified azide just passes through healthy tissue. In tumor cells, however, the enzymes digest the attached group and express the azide as a cell surface receptor that binds uniquely to DBCO, which can be used to deliver cancer drugs or imaging agents.

After showing that the method works in cells cultured in the laboratory, the team tested it in mice with triple-negative breast cancer, colon cancer, and metastatic breast cancer tumors, and they found that the tumors expressed very strong signals compared with other types of tissue.

"For the first time, we labeled and targeted tumors with small molecule sugars in vivo, and we used the cancer cell's own internal mechanisms to do it."

Prof. Jianjun Cheng

Learn how a prolactin receptor screen may lead to new treatments for triple-negative breast cancer.

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Cancer: New method tags elusive tumors for targeted therapy - Medical News Today

This startup preserves your cells for the future, to take advantage of medical breakthroughs yet to come – GeekWire

Silene Biotech co-founders Alex Jiao, left, and Jenna Strully. (Silene Biotech Photo)

Silene Biotech wants to help you grow a new heart or liver, in case those organs fail when you get older. The ambitious Seattle startup founded two years ago and a member of the 2017 TechStars Seattle class today is launching a new service that freezes and stores your white blood cells so they can be used decades later when troubling ailments set in.

The big idea? You could preserve the cells from your 23-year-old body for use when you are 65, and possibly facing life-threatening diseases.

Founded by four Seattleites, including two former University of Washington researchers, Silene is on the cutting-edge of a new field of regenerative medicine, which rebuilds parts of the body.

While growing a new heart with your own cells may be decades off, two of Silenes co-founders, Alex Jiao and Jenna Strully, believe preparing for those medical breakthroughs now could be a huge advantage.

Jiao and Strully came up with the idea for Silene after meeting in a science business class at the University of Washington, where Jiao was studying bioengineering and Strully, who is also a medical doctor, was in the MBA program.

They competed in the UWs business plan competition and won some initial funding during the process. The startup has raised $450,000 in total from UW grants and awards, angel investments, the founders own cash and funds from TechStars.

Jiao, who is just28 years old, said he hopes the startup will educate and raise awareness and provide a service, along with pushing the needle towards personalized medicine, a kind of medicine that tailors treatments to specific individuals.

The company was originally named miPS Labs, a nod to its focus on induced pluripotent stem (iPS)cell technology. Unlike most stem cells, which naturally occur in the body, these cells are engineered from an average adults white blood cells and could be used in regenerative medicine to grow extra tissue or even entire organs.

The first applications of this regenerative medicine technology are starting to hit clinical trials, Jiao said.

But the older we get, the less effectively the process works, he said. Silene Biotech is collecting and storing cells now, so customers can use them years or decades down the line.

Part of their plan is a newly-developed collection system. Instead of collecting urine samples, which the startup did in their beta trial, it is now partnering with Bloodworks Northwest to collect samples of customers blood.

Starting Thursday, customers can sign up to have blood drawn at Bloodworks Northwests downtown Seattle location.Jiao said they will soon also be taking samples at other Bloodworks locations throughout the Northwest.

The sample will then be processed by the company and stored in a facility in Indianapolis, far from Seattles threat of disruptive earthquakes. The service costs $299 for the initial processing and first year of storage, and $50 per year after that.

Customers can access their cells at any time, retrieving them to be used in medical procedures. The cells areanonymized during processing to protect patient confidentiality, and customers also retain the right to have the cells destroyed at any time.

Theres no way to know exactly what these cells could be used for in the future, but early possibilities includegrowing tissue to repair organs, using lab-grown tissue to test patients for drug resistance, and even growing entire organs for patients who need transplants.

To explain the possible uses of these specialized cells, Jiao cited the first clinical trial in which they were studied. In the trial, researchers took skin cells from a patient with vision loss and converted them into lab-grown stem cells. The cells were then grown into retinal cells and implanted in the patients eye, and halted her vision loss.

Maybe a decade or so off is when well really start seeing the fruits of this research turn into viable therapies that can treat and cure diseases, and maybe a couple more decades until we can regrow entire organs, Jiao said. Were not going to grow a heart tomorrow, he said, but trials are about to begin that aim to growing parts of a heart.

While iPS cells are the area of Jiaos expertise, he said the company changed its namebecause itrealized there were many more applications to its service than just iPS cells. Stored white blood cells are being studied as a treatment for Leukemia, for example.

But the switch was also inspired by a remarkable story.

In 2007, in the Northern reaches of Siberia, Russian scientists dug up a cache of seeds hidden by a squirrel. The seeds were estimated to be 32,000 years old.

A few years later, scientists were able togerminate one of the seeds and grow it into an adult plant: the silene stenophylla. That seed is officially the oldest living organism to survive being frozen.

Jiao said he hopes Silene Biotech will do a better job than squirrels did 32,000 years ago.

We caught up with Silenes founders for this Startup Spotlight, a regular GeekWire feature. Keep reading for a Q&A with Jiaoand Strully, and check out all our Startup Spotlights here.

Explain what you do so our parents can understand it:We store your younger cells today so you can use them in personalized therapies and diagnostics in the future.

Inspiration hit us when: Alex (Jiao) worked on deriving patient stem cells and turning them into heart cells and he realized he could be doing this easily for himself.

VC, Angel or Bootstrap: Bootstrap and angels. Need a fair amount of capital to start a lab, now trying to prove the market.

Our secret sauce is: Our passion, backgrounds, and our partnerships with UW and BloodworksNW

The smartest move weve made so far: Switching to blood and partnering with BloodworksNW

The biggest mistake weve made so far: Not moving faster

Would you rather have Gates, Zuckerberg or Bezos in your corner: Zuckerberg. Goals are more in line regarding biotech, pretty audacious (Chan + Zuckerberg initiative).

Our favorite team-building activity is: Grabbing snacks or meals (team loves food).

The biggest thing we look for when hiring is: Chemistry

Whats the one piece of advice youd give to other entrepreneurs just starting out: Meet and talk to everyone and keep an open mind.

Company Site: http://www.silenebiotech.com

Twitter: http://www.twitter.com/silenebiotech

LinkedIN: https://www.linkedin.com/in/silenebiotech

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This startup preserves your cells for the future, to take advantage of medical breakthroughs yet to come - GeekWire

A.J. Foyt planning to undergo stem-cell therapy – The Indianapolis Star – Indianapolis Star

Team owner A.J. Foyt watches his drivers during practice for the Indianapolis 500 on Monday, May 23, 2016, afternoon at the Indianapolis Motor Speedway.(Photo: Matt Kryger/IndyStar)Buy Photo

Racing legend A.J. Foyt is hoping to find the"fountain of youth."

The 82-year-old four-time winner of the Indianapolis 500 toldVerizon IndyCarmedia that he plans to undergo stem-cell therapy to help repair his ankles and shoulder. He also will have stem cells injected into hisblood.

Foyt's body has taken quite a beating over the years. According to the story, he suffered a broken back during a NASCAR race in 1964 and broken feet and legs during a 1991 IndyCar crash. In 2005, hewas stung more than 200 times by bees while trapped under his bulldozer at his Texas ranch. He's had knee and hip replacements, and in 2014 underwent triple-bypass heart surgery.

Foyt will undergo the therapy in Cancun, Mexico, as the treatment is not available in the United States.

It used to be you would have to go to Germany to get this procedure, but now it's available in Cancun and that is probably where I'll have it done, Foyt said Saturday during the Verizon IndyCar Series open test at Phoenix Raceway. I'm not in good health like I used to be and, if my son Larry hadn't taken over (running) the team four years ago, I would have had to shut it down. It's something he likes to do and I'm backing him 100 percent.

I feel better this year than I did last year, Foyt continued. If I get to feeling bad, I probably won't show up at the race. But I'm going to do that stem cell deal. My wife, Lucy, has been pretty sick lately. Dan Pastorini (the former NFL quarterback) did it and it helped him. Peyton Manning (the former Indianapolis Colts and Denver Broncos quarterback) did it for his neck and it really helped him. Tony Dorsett (the former Dallas Cowboys running back) did it, so I think we should try it.

Read the full story at indycar.com.

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A.J. Foyt planning to undergo stem-cell therapy - The Indianapolis Star - Indianapolis Star