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PAGE 8B HERITAGE FLORIDA JEWISH NEWS, JUNE 30, 2017 Dr. Jacob Hanna believes stem-cell treatments hold promise for restoring fertility to cancer survivors whose chemotherapy has rendered them infertile. By Ben Hartman Cancer is the second- leading cause of death in the United States, responsible for 22.5 percent of American fatalities. Only heart disease is more deadly. In Israel, cancer is the No. 1 killer. That's partly why Israel has become a research leader in the fight against the disease. Many of the world's most effective cancer treatments have roots in Israeli research, sometimes going back de- cades. The work taking place in Israeli labs today may lead to lifesaving treatments years in the future. Here are five promising areas Israeli researchers are studying in their quest for bet- ter cancer detection and treat- ment. Together they provide a glimpse into the remarkable scope of cancer research being conducted by internationally renowned scientists .across Israeli institutions. Mutant reeducation camp and the fight against ovarian cancer Mutant reeducation may sound like the plot of the next "X-Men" movie, but for a team of Israeli researchers it could be central to finding new treatments for Ovarian cancer, an especially deadly disease because of the difficulties of early detection. This year, 22,440 women inAmericawill be diagnosedwith ovarian can- cer and 14,080 will die from it, according to American Cancer Society estimates. In a program at Israel's Weizmann Institute of Sci- ver~ day that yoore outside, you're exposed to dangerous, but invisible, ul[raviolet (UV) S0t]light Left unprotected, prolonged expos~Jre to IIV radiation can seriously damage ttle eye, leai]ing tu cataracts ekia ~ncer aroond tile eyelid end other eye disorders Pretectil;g yuu~ eyes is importaftt to mailltainLng eye health now an0 in the future Shield your eyes (and yeur family's eyes) fi'onl Imrmfill UV Lays. wear sun|lasses wiul nmJdmm W wlte~em. ence financed in part by the Israel Cancer Research Fund, Dr. Varda Rotter is looking for ways to fight the disease on the molecular level using a protein known as the "king of tumor suppressors." The protein, p53, stops the formation of tumors. But when p53 mutates, it makes cancer cells more malignant and boosts their resistance to drugs. Rotter and her team have identified a small number of molecules that are able to "reeducate" mutant p53 and restore it to its role scan- ning for damaged DNA and stopping the development of tumors. They are also look- ing for methods to reeducate the mutant p53 to fight and eradicate mutant cells. "We are trying to find a way to convert or reeducate the mutant p53 to its role as the 'guardian of the genome,'" Rotter said. "It will reeducate the p53 into the right type of p53 and will show that under such circumstances there is a reduction of cell death in treated cells." Rotter hopes her team's research will result in meth- ods that can be applied along with immunotherapy to give women with ovarian cancer a better chance of beating the disease. Restoring infertility? Hit the restart button. For many cancer patients, surviving is just the first part of the battle. They often face serious lifelong problems, such as infertility Or the loss of healthy tissue that is highly difficult to regrow. "How do you replace dam- aged body parts?" asked Dr. Jacob Hannaofthe Weizmann institute. The key, Hanna and many others believe, lies in stem cells. Stem cells are early- stage cells that are capable of dividing into infinitely more cells and have the potential to become different cell types, such as bone, skin or muscle. Stem cells can help repair damaged tissue. Hanna is using ICRF fund- ing to research ways to take cells from healthyareas of the patient's body and turn them back into induced embryonic stem cells--the equivalent of the first cells with which each human body begins. Because the stem cells in Hanna's model would come directly from the patient's DNA rather than from a donor, the tissue would not face rejection. ALTAMONTE FAMILY PRACTICE Quality Through Excellence ANDREW KRUPITSKY, D.O. MARIE CHRISTENSEN, MD CINDY R. BRIDGES, ARNP, FNP'BC PAULA PATEN, ARNP, FNP-C, CCRN 407.332.6366 249 Maitland Ave, Suite 1000, Altamonte Springs, FL32701 Reverting the cells to their beginning state would be "like hitting the restart button of your computer," Hanna said The treatment would be unique. Currently the only proven stem-cell therapy in use is Centered on transplant- ingbone marrow. There are no stem-cell-based treatments for replacing organs or tissue other than blood. But Hanna believes stem-cell treatments are going to become reality in the next 20 years, and restor- ing fertility to infertile cancer survivors could be one major benefit. "We want to make mature human cells in the Petri dish," Hanna said. "If this is success- ful, it could be a major break- through for solving infertility problems in general, not only for women who underwent chemotherapy." For example, scientists could ake an unlimited sup- ply of female eggs"by growing stem cells in a dish and freez- ing them. "This could stop doctors from avoiding doing che- motherapy because they're worried about damaging the patient's fertility," Hanna said. "It would allow them to give longer treatment or stronger regiments." To fight brain cancer, think small. Very, very small. Glioblastoma, a particu- larly aggressive and deadly form of brain cancer, carries a very grim prognosis: Patients have a median survival time of about 15 months from the day of discovery. Tel Aviv University re- searcher Dr. Dan Peer is seek- ing ways to fight brain tumors using a targeted nanoparticle platform to transport drugs directly to the sites that need treatment rather than a more general chemotherapy or sur- gery. Targeted treatments the size of a nanometer--a mil- lionth of a millimeter--would minimize the effects on the rest of the body by targeting only the cancer cells and avoiding healthy cells nearby. The delivery vehicle would be RNA--ribonucleic acid, whose main role is to carry instructions from DNA. It is one of the three major biologi- cal macromolecules essential for all forms of life, along with DNAand proteins. By binding the RNA to a nanoparticle platform, researchers hope to bypass the hurdles that usually thwart drug delivery by specifically targeting the problem areas of the tumor. "The fact that nanomedi- cine can get around many of the obstacles that hinder drug delivery could mean a greater quality of life and life expectancy for patients suffer- ing from highly deadly forms of cancer like glioblastoma," Peer said. He and his colleagues are also using their ICRF research grant to examine ways to design drugs suited to a patient's specific genetic profile and then develop ap- propriate nanoparticle deliv- ery vehicles. By carrying the drugs spe- cifically to the cancer cells and not to the healthy ones, the treatment will have fewer ad- verse effects and toxicities for the patient while maximizing the drugs' therapeutic effect. "Ifwe can somehow dimin- Dr. Ruth Scherz-Shouval is studying how tumors me- tastasize by recruiting non,malignant cells to help them overcome the human immune system, ish the spreading of the tumor and improve diagnosis and theraPeutic effect," Peer said, "that will be beneficial for the patient." Fighting carcinomas: Rehab for non-malig- nant cells We've all had moments in life that spark our survival in- stincts under stress. Humans aren't the only ones that use chemical processes to survive stressful situations. To survive high fevers, for example, organisms as small as cells deploy the "heat- shock response"--activating proteins called chaperones that help cells maintain their structure and not melt down in the event of high temperatures. Tumors, too, use the heat-shock response to increase their odds of survival and grow ever-more malignant. For tumors to expand and metastasize, they "recruit" non-malignant cells in the tumor microenvironmentand get them to work for them and help them evade the immune system. Dr. Ruth Scherz- Shouval of the Weizmann In- stitute is studying the tumor microenvironment to deter- mine how the non-cancerous cells get reprogrammed to act against the body and support the tumor rather than defend the body against the tumor- ous growth. "The cells of the microenvi- ronment don't have the muta- tion that causes cancer cells to become cancer cells--yet they do things they are not supposed to do," she said. "We are interested in Understand- ing how this happens." Scherz-Shouval compared treatment in the microenvi- ronment to rehabilitating a nonviolent offender who can still be put on the right path-- unlike a hardened felon (the tumorous cell) who is too far gone to save. Think rehab for non-malignant cells. The research is relevant to solid tumors and specifically to carcinomas ' acanceraris- ing in skin tissue or the lining of internal organs. Scherz- Shouval has found a correla- tion betweeia the heat-shock response and poor patient survival in late-stage breast and lung cancer. She hopes her research, backed by the ICRF, will lead to a more generalized way to target cells in the microenvironment that will complement current cancer treatments and give patients a better chance at recovery. Wanted: A better way to fight leukemia Israel has the fourth-high- est per capita rate of leukemia deaths worldwide. In America, leukemia kills more than 24,000 people per year. Most leukemia treatments today focus'on chemotherapy, steroid drugs and stem-cell transplants. But Ben-Gur.ion University of the Negev re- searcher Roi Gazit is on the hunt for more effective, tar- geted treatments "Immune therapies and stem-cells treatments offer great advantages but too many options to choose from," Gazit said. "Our models will help to better specify which treatment may suit a specific type, and even sub-type, of the disease. Unfortunately, there is no one-size-fits-all treat- mentfor leukemia. That's why we need tailor-made models to fit the treatment to the disease." Gazit is focusing on how to develop targeted treatment of cancer cells using hema- topoietic stem cells--stem cells used in cancer treat- ment because of their ability to divide and form new and different kinds of blood cells. The research involves tak- ing primary cells--cells cultured directly from a sub- ject--and turning them into malignant leukemia growth inside mice. By examining how the leukemia develops, Gazit is exploring ways that hematopoietic stem cells may be deployed to arrest the leukemia. The research models his lab is using, part of a project supported by the Israel Can- cer Research Fund, could help scientists develop more types of immunotherapy and more ways to use stem cells to combat leukemia. "With any new information we can gain better under- standing, which translates into better treatment," Gazit said. This article was spon- sored by and produced in partnership with the Israel Cancer Research Fund, whose ongoing support of these and other Israeli scientists' work goes a long way toward en. suring that their efforts will have important and lasting impact in the global fight against cancer. This article was produced by JTA's native content team.