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Human Tumors Are Prized Real Estate for Fungi, Study Finds

29.09.2022

The findings demonstrate that fungi are living in tumors and may facilitate cancer detection, diagnosis and perhaps even treatment

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Cancer tumors contain multiple species of fungi that differ per tumor type, according to a large study led by researchers at the Weizmann Institute of Science and the University of California, San Diego.

The study, published today in Cell, potentially has implications for the diagnosis and treatment of cancer, as well as for the detection of cancer through a blood test. It complements scientists’ understanding of the interaction between cancer cells and the bacteria that exist in tumors alongside fungi, bacteria that have been shown to affect cancer growth, metastasis and response to therapy.

The researchers systematically profiled fungal communities in more than 17,000 tissue and blood samples taken from patients with 35 types of cancer. They found that fungi can be detected in all of these cancer types. Fungi were mostly found “hiding” inside the cancer cells or in immune cells inside the tumors.

""These findings should drive us to better explore the potential effects of tumor fungi and to re-examine almost everything we know about cancer through a ‘microbiome lens'"

The study also revealed multiple correlations between the presence of specific fungi in tumors and conditions related to treatment. For example, breast cancer patients who have Malassezia globosa – a fungus found naturally on the skin – in their tumors had a much lower survival rate than those who did not have the fungus. In addition, specific fungi were found to be more prevalent in the breast tumors of older patients than in those of younger ones, in the lung tumors of smokers than in those of nonsmokers and in melanoma tumors that did not respond to immunotherapy than in tumors that did respond to therapy.

These findings suggest that fungal activity is “a new and emerging hallmark of cancer,” says Prof. Ravid Straussman of the Weizmann’s Molecular Cell Biology Department, coleader of the study. “These findings should drive us to better explore the potential effects of tumor fungi and to re-examine almost everything we know about cancer through a ‘microbiome lens,’” he said.

The study, which characterized both the fungi and the bacteria that are present in human tumors, demonstrated that typical “hubs” of fungi and bacteria can be found in tumors. For example, while tumors that contain Aspergillus fungi tend to have specific bacteria in them, other tumors that contain Malassezia fungi tend to have other bacteria in them. These different “hubs” may be important for treatment, as they correlated with both tumor immunity and patient survival.

“This study sheds new light on the complex biological environment within tumors, and future research will reveal how fungi affect cancerous growth,“ says Prof. Yitzhak Pilpel, a coauthor of the study and a principal investigator at the Weizmann Institute of Science’s Molecular Genetics Department. “The fact that fungi can be found not only in cancer cells but also in immune cells implies that, in the future, we’ll probably find that fungi have some effect not only on the cancer cells but also on immune cells and their activity.”

The existence of fungi in most human cancers “is both a surprise and to be expected,” says Rob Knight, a professor of Pediatrics, Bioengineering and Computer Science & Engineering at UC San Diego, who coauthored the study. “It is surprising because we don’t know how fungi could get into tumors throughout the body. But it is also expected, because it fits the pattern of healthy microbiomes throughout the body, including the gut, mouth and skin, where bacteria and fungi interact as part of a complex community.”

The new paper also explored the presence of fungal and bacterial DNA in human blood. “The results suggest that measuring microbial DNA in the blood may help in the early detection of cancer, as different microbial DNA signatures can be found in the blood of cancer and noncancer patients,” says Dr. Gregory Sepich-Poore, a former graduate student in Knight’s lab.

Last year, Knight and Sepich-Poore cofounded Micronoma, a company developing a platform that uses microbial biomarkers in blood for the early diagnosis of cancer.

Science Numbers

With more than 6,000,000 different species that inhabit virtually every corner of the Earth, fungi have a diversity that exceeds even that of plants. Yet out of this estimated tally, scientists have so far identified only about 148,000 species. Out of those, only a few hundred species have been found to inhabit humans, and now also human tumors.

At the Weizmann Institute, the study was led by first coauthors Dr. Lian Narunsky Haziza from Straussman’s and Pilpel’s labs and by Dr. Ilana Livyatan from Straussman’s lab. Other collaborators include Omer Asraf, Dr. Deborah Nejman, Dr. Nancy Gavert, Ruthie Ariel and Arnon Meltser of the Weizmann Institute of Science; Dr. Amir Bashan and Guy Amit of Bar-Ilan University; Prof. Iris Barshack, Dr. Nora Balint-Lahat and Gili Perry of Sheba Medical Center and Tel Aviv University; Dr. Einav Gal-Yam and Dr. Maya Dadiani of Sheba Medical Center; Cameron Martino, Dr. Antonio González, Dr. Justin P. Shaffer, Dr. Sandip Pravin Patel and Dr. Austin D. Swafford of UC San Diego; Prof. Jason E. Stajich of UC Riverside; Dr. Qiyun Zhu of Arizona State University; and Dr. Stephen Wandro of Micronoma, San Diego.

Prof. Ravid Straussman’s research is supported by the Swiss Society Institute for Cancer Prevention Research; the Fabricant-Morse Families Research Fund for Humanity; the Dr. Chantal d’Adesky Scheinberg Research Fund and Dr. Dvora and Haim Teitelbaum Endowment Fund.

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