9/17/16

Cure for sickle cell in adults validated

Source:
University of Illinois at Chicago
Summary:
Physicians have cured 12 adult patients of sickle cell disease using a unique procedure for stem cell transplantation from healthy, tissue-matched siblings. The new technique eliminates the need for chemotherapy to prepare the patient to receive the transplanted cells and offers the prospect of cure for tens of thousands of adults suffering from sickle cell disease.
Ieshea Thomas was the first adult to be cured of sickle cell disease with the chemotherapy-free procedure at UI Health.
Credit: Image courtesy of University of Illinois at Chicago
Physicians at the University of Illinois Hospital & Health Sciences System have cured 12 adult patients of sickle cell disease using a unique procedure for stem cell transplantation from healthy, tissue-matched siblings.
The transplants were the first to be performed outside of the National Institutes of Health campus in Maryland, where the procedure was developed. Physicians there have treated 30 patients, with an 87 percent success rate. The results of the phase I/II clinical trial at UI Health, in which 92 percent of treated patients were cured, are published online in the journal Biology of Blood & Marrow Transplantation.
The new technique eliminates the need for chemotherapy to prepare the patient to receive the transplanted cells and offers the prospect of cure for tens of thousands of adults suffering from sickle cell disease.
About 90 percent of the approximately 450 patients who have received stem cell transplants for sickle cell disease have been children. Chemotherapy has been considered too risky for adult patients, who are often more weakened than children by the disease.
"Adults with sickle cell disease are now living on average until about age 50 with blood transfusions and drugs to help with pain crises, but their quality of life can be very low," says Dr. Damiano Rondelli, chief of hematology/oncology and director of the blood and marrow transplant program at UI Health, and corresponding author on the paper.
"Now, with this chemotherapy-free transplant, we are curing adults with sickle cell disease, and we see that their quality of life improves vastly within just one month of the transplant," said Rondelli, who is also the Michael Reese Professor of Hematology in the UIC College of Medicine. "They are able to go back to school, go back to work, and can experience life without pain."
Sickle cell disease is inherited. It primarily affects people of African descent, including about one in every 500 African Americans born in the U.S. The defect causes the oxygen-carrying red blood cells to be crescent shaped, like a sickle. The misshapen cells deliver less oxygen to the body's tissues, causing severe pain and eventually stroke or organ damage.
Sickle Cell Natural Healing: A Mother's Journey
Doctors have known for some time that bone marrow transplantation from a healthy donor can cure sickle cell disease. But few adults were transplanted because high-dose chemotherapy was needed to kill off the patients' own blood-forming cells -- and their entire immune system, to prevent rejection of the transplanted cells, leaving patients open to infection.
In the new procedure, patients receive immunosuppressive drugs just before the transplant, along with a very low dose of total body irradiation -- a treatment much less harsh and with fewer potentially serious side effects than chemotherapy.
Next, donor cells from a healthy and tissue-matched sibling are transfused into the patient. Stem cells from the donor produce healthy new blood cells in the patient, eventually in sufficient quantity to eliminate symptoms. In many cases, sickle cells can no longer be detected. Patients must continue to take immunosuppressant drugs for at least a year.
In the reported trial, the researchers transplanted 13 patients, 17 to 40 years of age, with a stem cell preparation from the blood of a tissue-matched sibling. Healthy sibling donor-candidates and patients were tested for human leukocyte antigen, a set of markers found on cells in the body. Ten of these HLA markers must match between the donor and the recipient for the transplant to have the best chance of evading rejection.
In a further advance of the NIH procedure, physicians at UI Health successfully transplanted two patients with cells from siblings who matched for HLA but had a different blood type.
In all 13 patients, the transplanted cells successfully took up residence in the marrow and produced healthy red blood cells. One patient who failed to follow the post-transplant therapy regimen reverted to the original sickle cell condition.
None of the patients experienced graft-versus-host disease, a condition where immune cells originating from the donor attack the recipient's body.
One year after transplantation, the 12 successfully transplanted patients had normal hemoglobin concentrations in their blood and better cardiopulmonary function. They reported less pain and improved health and vitality.
Four of the patients were able to stop post-transplantation immunotherapy without transplant rejection or other complications.
"Adults with sickle cell disease can be cured without chemotherapy -- the main barrier that has stood in the way for them for so long," Rondelli said. "Our data provide more support that this therapy is safe and effective and prevents patients from living shortened lives, condemned to pain and progressive complications."

Story Source:
The above post is reprinted from materials provided by University of Illinois at Chicago. The original item was written by Sharon Parmet. Note: Content may be edited for style and length.

9/16/16

Daniella Macolino a 24 year old actress who pursues her dreams each day while living, and thriving, with thalassemia major

When I was four months old, my family and I were on vacation in Vermont when my mom noticed I was turning yellow after my older brother took me out in the snow. She overlooked it, thinking I may have just been tired from all the traveling and playing outside. But the next day I was looking worse with bags under my eyes, so my parents rushed me to the hospital. The doctor ran some tests and broke the news to my parents that I have thalassemia major, also known as Cooley’s Anemia. Not only would I need a blood transfusion right away, I would also need to continue receiving transfusions every two weeks for the rest of my life in order to survive.
My mother was born and raised in France, and she came to America not speaking any English. Neither of my parents had any knowledge that they carried the thalassemia trait and had never even heard of it before my diagnosis. Since then, my parents have become my biggest advocates and made sure I grew up with an amazing support system of friends and family. My siblings, Paul, Joseph, and Victoria, understand what I go through and don’t look at me any differently.
Living with thalassemia has been difficult, especially as a teenager. I wanted to be like my friends—go out and have sleepovers—but couldn’t because I had to be home to take my Desferal injection. This nightly routine requires me to sleep with a needle pumping medication into my body to remove the deadly iron buildup caused by receiving frequent blood transfusions. I hated it, and it was very inconvenient for me. It was frustrating waking up with bruises on my legs and arms from the needle being in all night.

Beyond that, it was hard trying to fit in while feeling so different because I had an illness and had to go to the hospital frequently. I only told a few of my closest friends that I had this disorder. Now that I am older and more confident, I am very open about sharing my experience with everyone. This illness isn’t going to define who I am, but it will make me stronger and I know that’s why people are inspired by my story!

Isabella's Journey: Her Battle with the Blood Disorder, Thalassemia Major.

 The Cooley’s Anemia Foundation has been so amazing to me and my family. I can contact the Foundation anytime I have questions or need anything and they are there for me. The amount of gratitude I have for them, I can’t even put into words! I have been able to meet the most amazing people by attending Foundation conferences and other events. We are a true community, supporting each other’s passions, goals, and dreams.
It is so important to get involved with and support the Foundation, especially if you or someone you know has thalassemia. I know I can speak on behalf of patients like me when I say that getting involved is worth it because we are raising public awareness of our disorder as well as funds for medical research. One day, there will be a cure and I believe it will come sooner than expected!

“Choose a job you love, and you will never have to work a day in your life.” -Confucius
I believe that no matter what, everyone should follow their dreams and
no obstacle should stand in the way of accomplishing that! Those who know me know that I am pursuing an acting career and I have been for a while now. I don’t know exactly what it is about being in front of the camera or on stage that makes me feel amazing… but I know that I could not live without acting.
I’ve had to sacrifice so many things in order to keep doing what I love, but I’m no stranger to challenges! This is what I want to do and I will never give up. All the hard work is paying off because each year, I find myself doing better and better in my acting career. From January to May of this year I played a leading role in an independent feature film called The Prey—look out for it in October! And in August, I will be in a short horror film which I am really excited about. Tonight, I appear in an episode of The Perfect Murder on the ID channel. It is so crazy to even think that I have made it this far! Even though I put myself down every now and then thinking that I should be doing more, I am still really proud of what I have accomplished so far.
My advice to other thalassemia patients is to not look at yourself any differently than anyone else. Live your life day by day. Do what you love and don’t listen to anyone who puts you down, because at the end of the day you are a strong individual capable of doing what you want!
Just always remember to be safe and take care of yourself. It is important to be compliant by doing your chelation EVERY DAY and staying on schedule with blood transfusions. If you’re tired or feeling ill, don’t put it to the side! Your health comes first no matter what.
Thalassemia is rare and I know many people have not heard about it, but it is just as dangerous as any other chronic illness. Every patient is different and there is a wide range of complications. Please help us raise awareness and if you have never gotten your blood tested, visit your doctor to see if you carry the trait.

Scientists find new way to use CRISPR gene editing to help fix sickle cell disease

An international team of scientists led by researchers at St. Jude Children's Research Hospital has found a way to use CRISPR gene editing to help fix sickle cell disease and beta-thalassemia in blood cells isolated from patients. The study, which appears online today in Nature Medicine, provides proof-of-principle for a new approach to treat common blood disorders by genome editing.
"Our approach to gene editing is informed by the known benefits of hereditary persistence of fetal hemoglobin," said Mitchell J. Weiss, M.D., Ph.D., chair of the St. Jude Department of Hematology and one of the study's lead authors. "It has been known for some time that individuals with genetic mutations that persistently elevate fetal hemoglobin are resistant to the symptoms of sickle cell disease and beta-thalassemia, genetic forms of severe anemia that are common in many regions of the world. We have found a way to use CRISPR gene editing to produce similar benefits."
Fetal and adult hemoglobin are two different molecular forms of the essential oxygen-carrying molecule in red blood cells. Hemoglobins are made up of different combinations of four molecular subunits. Sickle cell disease and beta-thalassemia are caused by mutations in a gene encoding an adult-expressed subunit termed "beta." Disease becomes apparent after birth as the levels of adult hemoglobin take hold and levels of fetal hemoglobin decline. These mutations can affect the survival of red blood cells and inhibit oxygen delivery to tissues, causing impaired function of different organs with devastating consequences for patients. Fetal hemoglobin lacks beta subunits and has gamma subunits instead. Thus, beta-thalassemia or sickle cell disease–associated mutations, which impair the production or function of the beta subunit, do not cause problems with fetal hemoglobin, which can transport oxygen effectively in adults.
Experts have known for some time that inhibiting or reversing "gamma-to-beta" switching of hemoglobin subunits can raise levels of fetal hemoglobin in adults and significantly ameliorate the debilitating symptoms of beta-thalassemia or sickle cell disease.

"Our work has identified a potential DNA target for genome editing–mediated therapy and offers proof-of-principle for a possible approach to treat sickle cell and beta-thalassemia," added Weiss. "We have been able to snip that DNA target using CRISPR, remove a short segment in a "control section" of DNA that stimulates gamma-to-beta switching, and join the ends back up to produce sustained elevation of fetal hemoglobin levels in adult red blood cells." When the scientists edited the DNA of blood-forming stem cells derived from patients with sickle cell disease, they were able to activate those genes and produce red blood cells that had enough fetal hemoglobin to be healthy.
Recently, scientists have used several gene editing approaches to manipulate blood-forming stem cells for the possible treatment of sickle cell disease and beta-thalassemia, including repair of specific disease-causing mutations and other strategies to inhibit gamma-to-beta switching. All of these approaches remain untested in patients.
"Our results represent an additional approach to these existing innovative strategies and compare favorably in terms of the levels of fetal hemoglobin that are produced by our experimental system," said Weiss. Using genome editing to restore the hereditary persistence of fetal hemoglobin is an attractive possibility, because it can be achieved relatively easily using current technologies. The condition is known to be benign in people who inherit similar naturally occurring mutations.
At this stage, the scientists emphasize that it is still too early to begin clinical trials of the new gene editing approach. The researchers want to refine further the gene editing process and perform other experiments to minimize potentially harmful off-target mutations before in-human clinical trials are considered. Additionally, it will be important to compare different approaches head-to-head to determine which one is safest and most effective.
Source:
St. Jude Children's Research Hospital