Cancer vaccines need to target T cells that can persist in the long fight against cancer

September 25, 2017

AUGUSTA, Ga. (Sept. 25, 2017) - Cancer vaccines may need to better target T cells that can hold up to the long fight against cancer, scientists report.

Studies of two T cell types that are equally activated by alpha-fetoprotein, a well-established antigen made by liver cancer, show that while one starts off with a bang, the other endures as the more powerful tumor fighter.

"You poke one and it runs. The other you must give a big push," says Dr. Yukai He, immunologist at the Georgia Cancer Center and Department of Medicine at the Medical College of Georgia at Augusta University. He, a Georgia Research Alliance Distinguished Investigator, is corresponding author of the study in the journal Cancer Immunology Research.

T cells are the frontline of the immune system. Most typically, dendritic cells, the most powerful antigen presenters, show a suspicious item, like alpha-fetoprotein in liver cancer, to receptors on T cells, which starts an education process that prompts the immune system to attack.

While the high sensitivity and strong initial response to alpha-fetoprotein shown by the T cell Tet??? sound good, the scientists also found the cell quickly became exhausted from the prolonged immersion in the antigen, and even committed suicide.

"Basically with a tumor it's like jumping into a pool of antigen. If you are very sensitive to the antigen, you are going to make yourself overreactive and exhausted," he says.

On the other hand, it took more antigen to get the attention of Tet???, but this T cell stayed on target, generating a stronger, longer antitumor effect.

Tet??? also contained more stem-like memory T cells, which basically meant they could perpetuate themselves. "It's a self-replicating army," says He, and only about 1-2 percent of T cells have this ability.

In their animal studies, the team also found that the receptors on Tet??? had weaker signals, which is probably why it required more antigen to get its attention, the scientists write. But it's also apparently what helped Tet??? avoid the excessive signaling, exhaustion and death of its colleague Tet??? in the long battle against a tumor.

That kind of vigorous response and persistent stimulation followed by burnout and death of T cells has been noted in chronic infections, they write. Since many acute infections, like the influenza virus, are short-lived compared to a tumor, Tet???'s approach appears effective in those situations, but not so great in chronic infections like HIV, or tumors, He says.

There is still much to learn about exactly why the two T-cell types respond so differently, whether it's how their receptors respond initially, internal signaling differences in the two, both or something else, He notes.

But He suspects that we all have both T-cell types in our repertoire. One of his many goals is to develop a vaccine that would increase our level of Tet??? and/or Tet??? -like cells or at least get Tet??? and other similar cells to function more like the persistent Tet???. "We have to find a way in order for cancer vaccines to succeed," he says.

Vaccines are under study for a variety of cancers including breast, brain, lung and pancreatic, according to the American Society of Clinical Oncology. Two cancer prevention vaccines are already on the market, for human papillomavirus, the major cause of cervical cancer, and for hepatitis b, a cause of liver cancer; as well as one treatment vaccine for metastatic prostate cancer, according to the National Cancer Institute.

Problems with treatment vaccines include the fact that cancer suppresses the immune system while vaccines are trying to bolster and target it; and sick and/or older patients typically already have generally weaker immune systems. Also, as He says, cancer cells are derived from the individual's own cells, which is why cancer cells are often good at avoiding even the natural immune response. "Sometimes the mutation is so subtle, that the immune system does not see it as a threat," he says.

"Our current study points out that our immune system needs to be trained just right so that the immune fighters can persist in the malicious tumor environment and win the war," He says.

He's research team members postdoctoral fellow Dr. Sha Wu and research assistant Wei Zhu, are co-first authors. The NCI funded the research.

While most cancer incidence rates are declining, liver cancer incidence has more than tripled in the United States since 1980 and liver cancer death rates have increased by almost 3 percent per year since 2000, according to the American Cancer Society.
Alpha-fetoprotein is made by the yolk sac and the liver during human development, and levels are measured during pregnancy as an indicator of birth defects.

DOWNLOADS: Click to download a high-resolution photo of Dr. Yukai He

Medical College of Georgia at Augusta University

Related Cancer Articles from Brightsurf:

New blood cancer treatment works by selectively interfering with cancer cell signalling
University of Alberta scientists have identified the mechanism of action behind a new type of precision cancer drug for blood cancers that is set for human trials, according to research published in Nature Communications.

UCI researchers uncover cancer cell vulnerabilities; may lead to better cancer therapies
A new University of California, Irvine-led study reveals a protein responsible for genetic changes resulting in a variety of cancers, may also be the key to more effective, targeted cancer therapy.

Breast cancer treatment costs highest among young women with metastic cancer
In a fight for their lives, young women, age 18-44, spend double the amount of older women to survive metastatic breast cancer, according to a large statewide study by the University of North Carolina at Chapel Hill.

Cancer mortality continues steady decline, driven by progress against lung cancer
The cancer death rate declined by 29% from 1991 to 2017, including a 2.2% drop from 2016 to 2017, the largest single-year drop in cancer mortality ever reported.

Stress in cervical cancer patients associated with higher risk of cancer-specific mortality
Psychological stress was associated with a higher risk of cancer-specific mortality in women diagnosed with cervical cancer.

Cancer-sniffing dogs 97% accurate in identifying lung cancer, according to study in JAOA
The next step will be to further fractionate the samples based on chemical and physical properties, presenting them back to the dogs until the specific biomarkers for each cancer are identified.

Moffitt Cancer Center researchers identify one way T cell function may fail in cancer
Moffitt Cancer Center researchers have discovered a mechanism by which one type of immune cell, CD8+ T cells, can become dysfunctional, impeding its ability to seek and kill cancer cells.

More cancer survivors, fewer cancer specialists point to challenge in meeting care needs
An aging population, a growing number of cancer survivors, and a projected shortage of cancer care providers will result in a challenge in delivering the care for cancer survivors in the United States if systemic changes are not made.

New cancer vaccine platform a potential tool for efficacious targeted cancer therapy
Researchers at the University of Helsinki have discovered a solution in the form of a cancer vaccine platform for improving the efficacy of oncolytic viruses used in cancer treatment.

American Cancer Society outlines blueprint for cancer control in the 21st century
The American Cancer Society is outlining its vision for cancer control in the decades ahead in a series of articles that forms the basis of a national cancer control plan.

Read More: Cancer News and Cancer Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to