Tag Archives: tumors

‘Enhanced’ CAR T-Cell Therapy Shows Potential in Treating Solid Tumors

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Illustration of CAR T cell therapy targeting tumor cells

Illustration of CAR T cell therapy targeting tumor cells

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CAR T cells, which are immune cells modified to attack cancer, have transformed blood cancer treatments, particularly for leukemia. However, they have struggled against solid tumors. Recently, “weaponized” CAR T cells have successfully eliminated large prostate tumors in mice, providing optimism for similar therapies in humans.

“The tumor is completely gone,” states Jun Ishihara from Imperial College London, marking a unique achievement in animal research.

Our immune system typically identifies and destroys many cancers early on. Cancer cells often display mutated proteins recognized by T cells, which seek to eliminate these threats using surface receptor proteins, functioning similarly to antibodies.

However, not every cancer incites an immune response. In the 1980s, scientists found a way to engineer T cells to target cancer more effectively by incorporating genes for chimeric antigen receptors, hence the term CAR T.

While CAR T cells have shown remarkable success in treating some blood cancers, they also carry significant risks. They are effective for some but not all patients, and ongoing enhancements are needed. The development of CRISPR gene editing facilitates further improvements to these therapies.

Despite advancements, CAR T therapies remain ineffective for most solid tumors due to two primary challenges: the vast heterogeneity of solid tumors—where not all cells present the same mutated proteins—and the tumors’ ability to evade immune responses by emitting “do not attack” signals.

Researchers have attempted to enhance CAR T cells by incorporating immune-boosting proteins like interleukin-12, but this has sometimes resulted in overwhelming immune responses that damage healthy tissues.

Ishihara and colleagues have pioneered a method to localize interleukin-12 specifically to tumors. By fusing interleukin-12 to a protein that binds collagen, which is prevalent in tumors, they engineered it to target the exposed collagen found in both wounds and tumors. “Tumors are rich in collagen and are dense because of it,” Ishihara noted.

The modified CAR T cells produce this fusion protein when they bind to the mutated proteins present in certain prostate cancers. Once released, the fusion protein attaches to the tumor’s collagen, effectively signaling the immune system to launch an attack.

Trial results were promising, as the treatment eradicated 80% of large prostate tumors in the test mice. Additionally, when exposed to cancer cells afterward, no new tumors formed, indicating a robust immune response from the CAR T cells.

Remarkably, this approach did not necessitate preconditioning. Usually, chemotherapy is given to create space for new CAR T cells by depleting existing immune cells, risking side effects such as infertility. “We were surprised that no chemotherapy was required,” says Ishihara. His team aspires to commence human clinical trials within the next two years.

“This is a promising avenue that warrants clinical testing,” stated Stephen Albelda from the University of Pennsylvania. He noted that numerous research groups are also exploring similar methods for tumor-targeted localization of interleukin-12, with encouraging results being reported.

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Source: www.newscientist.com

Discover “Monster” Tumors That Can Develop Hair, Teeth, and Organs

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This concept may surprise you, but certain tumors can indeed develop parts of your body, or at least fragments of them.

These peculiar layers, known as teratomas, originate from germ cells that possess the extraordinary capability to transform into any type of tissue.

Germ cells typically evolve into sperm or eggs; however, when their development is disrupted, they can create a disorganized mass of tissue.

The term “Teratoma” is derived from the Greek word Teras, which means “monster,” aptly reflecting its nature.

These tumors feature an astonishing array of components, ranging from hair and teeth to muscle tissues and even organ-like structures such as the thyroid and eyes.

While fully functional organs are exceedingly rare, the intricate nature of these tumors is undeniable.

Teratomas are most frequently observed in the ovaries and testes, but they can also appear in the midline of the body, such as the mediastinum (the chest area that houses the heart) and the base of the spine.

The majority of teratomas are benign and can be easily excised, though a small percentage—particularly those in men—can become malignant and necessitate urgent treatment. Surgery is generally the primary method for addressing these tumors, and the prognosis is typically favorable.

It can grow teeth, muscles, thyroid, eyes, and other tissues from the teratoma – Image credit: Science Photo Library

In addition to their medical implications, teratomas have offered significant insights into the science of cellular development.

They can include tissues derived from all three layers of germ cells, making them an intriguing model for studying how cells differentiate and organize.

So, can a tumor grow organs? In a way, yes. However, these structures are often nonfunctional and poorly organized.

Teratoma serves as a striking and unsettling example of the bizarre and unpredictable aspects of human biology.

This article addresses the question posed by Anisa Manning and Steve Nage: “Can tumors grow their own organs?”

If you have questions, please email us at Question @sciencefocus.com or message us on Facebook, Twitter, or Instagram (please include your name and location).

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Source: www.sciencefocus.com

Five nurses at Massachusetts Hospital working together in the same unit diagnosed with brain tumors

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An investigation is underway at a Boston area hospital involving five nurses who worked in the same department and developed brain tumors.

Mass General Brigham Newton Wellesley Hospital reported a total of 11 employees in the fifth floor obstetrics department have raised health concerns, with five of them being diagnosed with benign brain tumors. Two of these tumors are meningiomas, the most common and benign types of brain tumors.

“The investigation did not find any environmental risks associated with the development of brain tumors,” said hospital administrator Jonathan Sonis, in a statement alongside Associate Nurse Sandy Muse Jonathan Sonis.

The hospital conducted the investigation in collaboration with government health and safety officials, ruling out disposable masks, water supplies, nearby X-rays, and chemotherapy treatments as possible sources of the issue.

“Based on these findings, we can assure our staff and patients that there are no environmental risks within our facilities,” the administrator assured.

Exterior of Mass General Brigham Newton Wellesley Hospital in Newton, Massachusetts.
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The Massachusetts Nurse Association, currently negotiating nurse compensation at the hospital, expressed their commitment to ongoing investigation.

The union highlighted nurses’ concerns about workplace health, leading to the discovery of individuals with tumors.

“The hospital’s environmental tests were not comprehensive, and they only spoke to a few nurses,” stated MNA spokesman Joe Markman. “The hospital cannot sweep this issue under the rug.”

The state agency and federal Occupational Safety and Health Administration are yet to provide conclusive information on the matter.

According to the American Cancer Society, a cancer cluster would involve an unusually high number of cancer cases within a specific area sharing common characteristics.

“Four out of ten people in the US develop cancer during their lifetime,” stated the association, emphasizing the frequency of cancer occurrences.

Source: www.nbcnews.com