Chemotherapy and Immune Response, Complex Therapeutic Terrain

Chemotherapy-Stimulated Immune Response: An Open Debate

Jonathan Goodman, Cancer Therapy Advisor

Chemotherapy and Immune Response, Complex Therapeutic Terrain

“A recent review suggested that chemotherapy may prime cancer to respond to checkpoint inhibition.1 According to the review, which was published in the Annals of Oncology earlier this year, this may occur for a variety of reasons, depending primarily on the mechanism of action of the chemotherapy in question. 

In the past, these predictions may have been surprising to researchers in oncology, as chemotherapy was previously thought to be immunosuppressive. Yet, the authors argue, the effects of chemotherapy can “induce favorable immunogenic conditions within the tumor microenvironment, which may be difficult to achieve by just targeting immune cells.” 

In this setting, chemotherapy functions as the first part of a 2-stage evolutionary trap, where in the first stage clinicians actively select for a tumor microenvironment in which checkpoint blockade is most likely to be effective. With cyclophosphamide, for example, immunogenic cell death may be induced, and the drug may lead to dendritic cell homeostasis.2,3 Both are favorable immunomodulatory effects that may lead to an improved immune response —especially, it appears, when checkpoint blockade is used. 

A recent editorial published in the Annals of Oncology, however, suggests that the notion of turning “cold” tumors “hot” may be a misconception.4 This, according to a study author, Thomas Helleday, PhD, professor of translational oncology and director of the Sheffield Cancer Centre at the University of Sheffield, England, is for several key reasons, each of which has to do with the selective processes caused by chemotherapeutics.“


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Cancer evading the Immune System, covered in the New York Times

Cancer’s Trick for Dodging the Immune System

Matt Richtel, The New York Times

Cancer evading the Immune System, covered in the New York Times

Cancer immunotherapy drugs, which spur the body’s own immune system to attack tumors, hold great promise but still fail many patients. New research may help explain why some cancers elude the new class of therapies, and offer some clues to a solution.

The study, published on Thursday in the journal Cell, focuses on colorectal and prostate cancer. These are among the cancers that seem largely impervious to a key mechanism of immunotherapy drugs.

The drugs block a signal that tumors send to stymie the immune system. That signal gets sent via a particular molecule that is found on the surface of some tumor cells.

The trouble is that the molecule, called PD-L1, does not appear on the surface of all tumors, and in those cases, the drugs have trouble interfering with the signal sent by the cancer.


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New advance increasing the effectiveness of immunotherapies for cancer treatment

Harnessing T-cell “stemness” could enhance cancer immunotherapy

A new study led by scientists in the Center for Cancer Research (CCR) at the National Cancer Institute (NCI) sheds light on one way tumors may continue to grow despite the presence of cancer-killing immune cells. The findings, published March 29, 2019, in Science, suggest a way to enhance the effectiveness of immunotherapies for cancer treatment. NCI is part of the National Institutes of Health.

Dying cancer cells release the chemical potassium, which can reach high levels in some tumors. The research team reported that elevated potassium causes T cells to maintain a stem-cell-like quality, or “stemness,” that is closely tied to their ability to eliminate cancer during immunotherapy. The findings suggest that increasing T cells’ exposure to potassium—or mimicking the effects of high potassium—could make cancer immunotherapies more effective.

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Cancer immunotherapy improved with CRISPR

Researchers engineer immune cells to fight cancer

Cancer immunotherapy improved with CRISPR. Genome Media.

Deep in the cells of the human immune system, DNA is constantly being replicated, transcribed and even mutated — but rarely does it change dramatically. Like every other living organism, humans and their genes developed from millions of years of evolutionary pruning.

But to Yale microbiologists, altering the entire genomes of T-cells — the body’s main offensive weapon against diseases such as cancer — is as simple as putting together a Lego set.

In a new study published in the journal Nature Methods on Feb. 25, researchers at the Sidi Chen Lab at Yale have come up with a new way to use the gene-editing technology CRISPR that significantly improves the technology’s efficiency. By allowing scientists to select multiple genes to include in the same CRISPR system, scientists will now be able to edit their samples’ genomes in one go, saving time and money in the process. These findings have considerable promise for engineering T-cells that can fight off cancers such as leukemia and lymphoma.


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