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Numerous species of fungi exist in cancer cells and differ by tumor type, according to findings from a large study of multiple sample types across 35 different cancers.

The investigators characterized the cancer mycobiome within 17,401 tissue, blood, and plasma samples from four international cohorts, revealing new information about fungi distribution, association with immune cells, and potential prognostic value.

Fungi were detected in all cancer types studied and were often intracellular, reported Lian Narunsky-Haziza, PhD, of Weizmann Institute of Science, Rehovot, Israel, and colleagues.

Additionally, multiple fungal-bacterial-immune ecologies were detected across tumors, and intratumoral fungi stratified clinical outcomes, including immunotherapy response, they noted. Also, cell-free fungal DNA diagnosed healthy and cancer patients in early-stage disease.

The findings, published online in the journal Cell, have potential implications for cancer detection, diagnosis, and treatment, the researchers suggested.

The existence of fungi in most human cancers “is both a surprise and to be expected,” study coauthor Rob Knight, PhD, a professor at the University of California, San Diego, stated in a press release. “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.”

Exploration of the associations between cancer and microbes are nothing new, but cancer-associated fungi have rarely been examined, the authors noted.

The findings from this pan-cancer analysis, which suggested “prognostic and diagnostic capacities of the tissue and plasma mycobiomes, even in stage I cancers,” complement current “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,” they explained.

Of note, the study revealed multiple correlations between the presence of specific fungi in tumors and conditions related to treatment. For example, patients with breast cancer whose tumors contained Malassezia globosa – a fungus found naturally on the skin – had a much lower survival rate than those whose tumors did not contain the fungus. Furthermore, specific fungi were more prevalent in breast tumors from older vs. younger patients, in lung tumors of smokers vs. nonsmokers, and in melanoma tumors that responded to immunotherapy vs. those that did not respond.

These findings suggest that fungal activity is “a new and emerging hallmark of cancer,” stated study coleader Ravid Straussman, PhD, of the Weizmann molecular cell biology department. “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.’ ”

Unique relationships observed between fungi and bacteria – for example, tumors that contain Aspergillus fungi tended to have specific bacteria in them, whereas tumors that contain Malassezia fungi tended to have other bacteria in them – may have implications for treatment, as they correlated with both tumor immunity and patient survival, according to the authors.

“This study sheds new light on the complex biological environment within tumors, and future research will reveal how fungi affect cancerous growth,” said coauthor Yitzhak Pilpel, PhD, a principal investigator at the Weizmann 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.”

A further finding related to the presence of fungal and bacterial DNA in human blood further suggests that measuring microbial DNA in the blood could lead to early detection of cancer, the authors noted.

Dr. 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 the Dr. Dvora and Haim Teitelbaum Endowment Fund.
 

A version of this article first appeared on Medscape.com.

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Numerous species of fungi exist in cancer cells and differ by tumor type, according to findings from a large study of multiple sample types across 35 different cancers.

The investigators characterized the cancer mycobiome within 17,401 tissue, blood, and plasma samples from four international cohorts, revealing new information about fungi distribution, association with immune cells, and potential prognostic value.

Fungi were detected in all cancer types studied and were often intracellular, reported Lian Narunsky-Haziza, PhD, of Weizmann Institute of Science, Rehovot, Israel, and colleagues.

Additionally, multiple fungal-bacterial-immune ecologies were detected across tumors, and intratumoral fungi stratified clinical outcomes, including immunotherapy response, they noted. Also, cell-free fungal DNA diagnosed healthy and cancer patients in early-stage disease.

The findings, published online in the journal Cell, have potential implications for cancer detection, diagnosis, and treatment, the researchers suggested.

The existence of fungi in most human cancers “is both a surprise and to be expected,” study coauthor Rob Knight, PhD, a professor at the University of California, San Diego, stated in a press release. “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.”

Exploration of the associations between cancer and microbes are nothing new, but cancer-associated fungi have rarely been examined, the authors noted.

The findings from this pan-cancer analysis, which suggested “prognostic and diagnostic capacities of the tissue and plasma mycobiomes, even in stage I cancers,” complement current “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,” they explained.

Of note, the study revealed multiple correlations between the presence of specific fungi in tumors and conditions related to treatment. For example, patients with breast cancer whose tumors contained Malassezia globosa – a fungus found naturally on the skin – had a much lower survival rate than those whose tumors did not contain the fungus. Furthermore, specific fungi were more prevalent in breast tumors from older vs. younger patients, in lung tumors of smokers vs. nonsmokers, and in melanoma tumors that responded to immunotherapy vs. those that did not respond.

These findings suggest that fungal activity is “a new and emerging hallmark of cancer,” stated study coleader Ravid Straussman, PhD, of the Weizmann molecular cell biology department. “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.’ ”

Unique relationships observed between fungi and bacteria – for example, tumors that contain Aspergillus fungi tended to have specific bacteria in them, whereas tumors that contain Malassezia fungi tended to have other bacteria in them – may have implications for treatment, as they correlated with both tumor immunity and patient survival, according to the authors.

“This study sheds new light on the complex biological environment within tumors, and future research will reveal how fungi affect cancerous growth,” said coauthor Yitzhak Pilpel, PhD, a principal investigator at the Weizmann 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.”

A further finding related to the presence of fungal and bacterial DNA in human blood further suggests that measuring microbial DNA in the blood could lead to early detection of cancer, the authors noted.

Dr. 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 the Dr. Dvora and Haim Teitelbaum Endowment Fund.
 

A version of this article first appeared on Medscape.com.

Numerous species of fungi exist in cancer cells and differ by tumor type, according to findings from a large study of multiple sample types across 35 different cancers.

The investigators characterized the cancer mycobiome within 17,401 tissue, blood, and plasma samples from four international cohorts, revealing new information about fungi distribution, association with immune cells, and potential prognostic value.

Fungi were detected in all cancer types studied and were often intracellular, reported Lian Narunsky-Haziza, PhD, of Weizmann Institute of Science, Rehovot, Israel, and colleagues.

Additionally, multiple fungal-bacterial-immune ecologies were detected across tumors, and intratumoral fungi stratified clinical outcomes, including immunotherapy response, they noted. Also, cell-free fungal DNA diagnosed healthy and cancer patients in early-stage disease.

The findings, published online in the journal Cell, have potential implications for cancer detection, diagnosis, and treatment, the researchers suggested.

The existence of fungi in most human cancers “is both a surprise and to be expected,” study coauthor Rob Knight, PhD, a professor at the University of California, San Diego, stated in a press release. “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.”

Exploration of the associations between cancer and microbes are nothing new, but cancer-associated fungi have rarely been examined, the authors noted.

The findings from this pan-cancer analysis, which suggested “prognostic and diagnostic capacities of the tissue and plasma mycobiomes, even in stage I cancers,” complement current “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,” they explained.

Of note, the study revealed multiple correlations between the presence of specific fungi in tumors and conditions related to treatment. For example, patients with breast cancer whose tumors contained Malassezia globosa – a fungus found naturally on the skin – had a much lower survival rate than those whose tumors did not contain the fungus. Furthermore, specific fungi were more prevalent in breast tumors from older vs. younger patients, in lung tumors of smokers vs. nonsmokers, and in melanoma tumors that responded to immunotherapy vs. those that did not respond.

These findings suggest that fungal activity is “a new and emerging hallmark of cancer,” stated study coleader Ravid Straussman, PhD, of the Weizmann molecular cell biology department. “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.’ ”

Unique relationships observed between fungi and bacteria – for example, tumors that contain Aspergillus fungi tended to have specific bacteria in them, whereas tumors that contain Malassezia fungi tended to have other bacteria in them – may have implications for treatment, as they correlated with both tumor immunity and patient survival, according to the authors.

“This study sheds new light on the complex biological environment within tumors, and future research will reveal how fungi affect cancerous growth,” said coauthor Yitzhak Pilpel, PhD, a principal investigator at the Weizmann 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.”

A further finding related to the presence of fungal and bacterial DNA in human blood further suggests that measuring microbial DNA in the blood could lead to early detection of cancer, the authors noted.

Dr. 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 the Dr. Dvora and Haim Teitelbaum Endowment Fund.
 

A version of this article first appeared on Medscape.com.

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