The American Physiological Society Press Release

press release logo

APS Contact: APS Communications Office

Email: communications@the-aps.org

Phone: 301.634.7209

Twitter: @APSPhysiology


Turning Up the Heat Could Aid the Treatment of Cancer, Organ Transplant and Autoimmune Diseases

Researchers explore the ability of thermotherapy to help cells fight disease

San Diego (August 29, 2017)—Heat therapy may be a promising treatment in the fight against cancer, autoimmune problems and efforts to avoid organ rejection in transplant patients, according to researchers at the University of Kentucky. The research team exposed colorectal cancer cells and T-cells—immune cells that fight disease—to temperatures lower (hypothermic) and higher (hyperthermic) than normal body temperatures. They observed the effects of these temperature changes on the energy production (bioenergetics) in both cell types. They will present their findings at the American Physiological Society’s Physiological Bioenergetics: Mitochondria from Bench to Bedside conference in San Diego.

The use of thermotherapy to combat disease has a long history dating back to ancient Egypt. But much of what is known about heat therapy as a treatment for disease has been discovered through trial and error. With new bioenergetic measurement technologies such as the Seahorse XF analyzer, researchers are now able to apply more detailed, real-time, hypothesis-driven methods to research the effects of temperature on diseases.

“It is apparent that high temperature is naturally involved in immune response. As we get sick we normally develop some level of fever, which is involved with the body’s normal response to infections. This activates the immune system to attack or eliminate infections,” said Mihail (Mike) Mitov, PhD, lead author on the abstract. “A popular theory in the field of thermotherapy is that prolonged hyperthermia causes cell-cycle arrest in cancer cells. This explains some of the cancer-stopping effects of thermotherapy. But apparently, there are also changes in the energy metabolism of cells and possibly other yet unknown processes that affect the energetic profiles of the cells. These processes could be exploited for the development of new treatments or therapeutic approaches with fewer side effects than chemotherapy.”

Normal function of immune cells, such as T-cells, rely heavily on an activation process involving increased glycolysis—the breakdown of glucose into pyruvate. Such switches in T-cell metabolism are believed to help boost the cells’ ability to fight off infection and disease. Cancer cells are also known to be more glycolytic compared to normal non-cancer cells. “The present study investigates how changes in temperature affect the bioenergetics characteristics (mitochondrial function and glycolysis) of three colorectal cancer cell lines and primary human T-cells utilizing Seahorse XF96 technology,” the research team wrote.

The researchers performed experiments on the cells at 32, 37 and 42 degrees Celsius and found that temperature significantly changed multiple components of the glycolytic process in all cell types. “We found that short-term hyperthermia (a 2.5-hour exposure) increases glycolysis of T-cells, thus, putting them in an active state that potentially is ready to fight cancer or infections,” Mitov noted. However, if the exposure to hyperthermia is prolonged the T-cells become inactive, which could be beneficial for people who need a suppressed immune response, such as those with an organ transplant or autoimmune diseases.

“These findings provide valuable insights into the metabolic and bioenergetics changes of colorectal cancer cells and human T-cells under hypo- and hyperthermia conditions that could potentially lead to the development of better-targeted and personalized strategies for patients with cancer, metabolic disorders, diabetes or transplanted organs,” the research team wrote.

Mike Mitov will present “Temperature-induced changes in glycolytic reserve and mitochondrial spare respiratory capacity in colorectal cancer and human T-cell lines” at a poster session on Tuesday, August 29, from 5 to 7 p.m. in the U.S. Grant Hotel.

NOTE TO JOURNALISTS: The Physiological Bioenergetics: Mitochondria from Bench to Bedside conference will be held in San Diego, August 27–30, 2017. Read the full program. To schedule an interview with the conference organizers or presenters, contact the APS Communications Office or call 301-634-7209. Find more research highlights in the APS Press Room.

Physiology is the study of how molecules, cells, tissues and organs function in health and disease. Established in 1887, the American Physiological Society (APS) was the first U.S. society in the biomedical sciences field. The Society represents more than 10,500 members and publishes 15 peer-reviewed journals with a worldwide readership.

 


RelatedItems

Leading Experts Explore the Clinical, Translational Applications of Mitochondria

Released August 22, 2017 - Cross-disciplinary experts who study the mitochondria will convene at the APS “Physiological Bioenergetics: Mitochondria from Bench to Bedside” conference August 27–30 in San Diego. “While mitochondria are traditionally known as the powerhouse of the cell, accumulating studies demonstrate that the shape, movement and function of these organelles control much more in the cell beyond energy levels,” Sruti Shiva, PhD, researcher at the University of Pittsburgh and chair of the conference organizing committee, said.

Mom’s, Not Dad’s, Mitochondria Create Healthy Embryos

Released August 28, 2017 - Mammal embryos shed paternal mitochondria within days of fertilization, perhaps to ensure the offspring a healthy life, a new study shows. Researchers from the California Institute of Technology will present their findings today at the Physiological Bioenergetics: Mitochondria from Bench to Bedside conference in San Diego.

Taking It to the Clinic: Using Mitochondria to Diagnose Disease

Released August 28, 2017 - Leading researchers will discuss advances in understanding the role of mitochondria in health and disease and the use of the “powerhouse of the cell” as a clinical diagnostic tool during the “Translating the Mitochondria—Taking It to the Clinic” symposium at the American Physiological Society’s (APS’s) Physiological Bioenergetics: Mitochondria from Bench to Bedside conference.

From: 
Email:  
To: 
Email:  
Subject: 
Message:

~/Custom.Templates/PressRelease.aspx