Further Investigation is Warranted
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Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL)–targeting therapies still hold promise for treating cholangiocarcinoma (CCA) despite disappointing results in previous preclinical research, primarily due to the adaptive resistance and unexpected immune modulation, according to investigators.

Those prior studies evaluated a combination of immunotherapy and TRAIL agonism, but selective TRAIL antagonism shows greater potential via dual ligand/receptor (TRAIL/TRAIL-R) targeting to block immunosuppression, reported lead author Emilien J. Loeuillard, PhD, of Mayo Clinic, Rochester, Minnesota, and colleagues.

Courtesy Dr. Emilien J. Loeuillard
Dr. Emilien J. Loeuillard

“The TRAIL/TRAIL-R system has garnered considerable interest in cancer biology, especially as a potential anticancer therapy,” the investigators wrote in Cellular and Molecular Gastroenterology and Hepatology. “However, TRAIL-R agonists have had very limited anticancer activity in human beings, challenging this concept of TRAIL as an anticancer agent.”

This may be because they were working in the wrong direction, Dr. Loeuillard and colleagues suggested, citing recent work linking TRAIL with tumor proliferation and invasion, possibly via modification of the tumor immune microenvironment.

Exact mechanisms of modification, however, remain unclear. While TRAIL has been associated with tumor-promoting effects like induction of a promyeloid secretome in adenocarcinoma, it has also been linked with anticancer effects like activation of natural killer cells and cytotoxic T lymphocytes.

“Thus, the potency and hierarchy of TRAIL anticancer vs procancer processes in cancer biology has yet to be defined,” the investigators wrote.

While TRAIL ligation of cognate receptors has been previously investigated and shown to trigger proapoptotic signaling pathways, noncanonical TRAIL-mediated signaling remains largely unexplored, particularly in CCA.

The present study evaluated TRAIL biology in CCA using immunocompetent mouse models.

These experiments showed that noncanonical TRAIL signaling immunosuppresses the tumor microenvironment by increasing quantity and activity of myeloid-derived suppressor cells (MDSCs). Blocking noncanonical TRAIL signaling by selective deletion of TRAIL-R in immune cells had significantly reduced tumor volumes alongside fewer MDSCs, driven by FLICE inhibitory protein (cFLIP)-dependent nuclear factor kappa-B activation (NF-kappa-B) in MDSCs, which has antiapoptotic activity. While MDSCs present one possible target in this chain of immunosuppression, “therapeutic strategies for targeting MDSCs are limited,” the investigators wrote, noting that available myeloid modulators have fallen short in clinical trials.

Instead, cFLIP may be a convincing option, they suggested, as targeting cFLIP can sensitize cancer cells to proapoptotic TRAIL signaling. What’s more, cFLIP appears to protect MDSCs from TRAIL-mediated apoptosis, so taking out this barrier could render MDSCs susceptible to therapy.

“Our studies suggest that switching prosurvival/proliferation TRAIL signaling to canonical proapoptotic TRAIL signaling will promote MDSC apoptosis, which in turn has therapeutic implications for CCA suppression,” the investigators wrote.

Hope therefore remains for targeting TRAIL in patients with CCA, but with selective antagonism instead of agonism, as previously attempted.

“In summary, our findings support the role of selective therapeutic targeting of TRAIL-positive cancer cells in an effort to block TRAIL/TRAIL-R–mediated tumor immunosuppression,” Dr. Loeuillard and colleagues concluded.

This study was funded by the Cholangiocarcinoma Foundation and the Mayo Clinic Eagles 5th District Cancer Telethon Funds for Research Fellowship Program, the CTSA/National Center for Advancing Translational Science, the National Institutes of Health/National Cancer Institute, and others. The investigators disclosed no conflicts of interest.

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The dismal response of cholangiocarcinoma to immune checkpoint inhibitors (ICI) is particularly concerning, as it impedes the adoption of combination regimens, now standard in most solid tumors. Strategies modulating selective genes involved in the tumor inflammatory environment and tumor cell viability, including those within the tumor necrosis factor superfamily, parallel the mechanism of action of ICI and present a double-edged sword due to the context-dependent pro- and/or anticancer effects of their canonical and/or phantom roles.

Recent investigations suggest that selectively antagonizing TRAIL via (TRAIL/TRAIL-R) targeting may be more effective than agonism. Dr. Ilyas’ group from Mayo Clinic delved into the potential of TRAIL in cancer biology, particularly in CCA, shedding light on the complexities of TRAIL’s role in cancer, where both procancer and anticancer effects are observed.

Courtesy University of Pittsburgh School of Medicine
Dr. Sungjin Ko
Importantly, they unveiled that noncanonical TRAIL signaling contributes to suppressing the tumor microenvironment by promoting the accumulation of myeloid-derived suppressor cells which can be further mitigated by a novel strategy targeting FLICE inhibitory protein to increase cancer cell sensitivity to proapoptotic TRAIL signaling, presenting a potential avenue for therapeutic intervention as well as biomarkers predictive of TRAIL response for CCA.

Further investigation is warranted to explore how TRAIL/TRAIL-R therapy can be effectively combined with other broad-spectrum and/or targeted therapies to maximize selective toxicity to CCA cells, sparing the nonmalignant tissue, thereby extending the lifespan of CCA patients as well as assessing its preventive potential in predisposed premalignant stages, including cholestasis patients.
 

Sungjin Ko, DVM, PhD, is assistant professor in the Division of Experimental Pathology at the University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania. He is also a member of the Pittsburgh Liver Research Center. He reported no conflicts of interest.

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The dismal response of cholangiocarcinoma to immune checkpoint inhibitors (ICI) is particularly concerning, as it impedes the adoption of combination regimens, now standard in most solid tumors. Strategies modulating selective genes involved in the tumor inflammatory environment and tumor cell viability, including those within the tumor necrosis factor superfamily, parallel the mechanism of action of ICI and present a double-edged sword due to the context-dependent pro- and/or anticancer effects of their canonical and/or phantom roles.

Recent investigations suggest that selectively antagonizing TRAIL via (TRAIL/TRAIL-R) targeting may be more effective than agonism. Dr. Ilyas’ group from Mayo Clinic delved into the potential of TRAIL in cancer biology, particularly in CCA, shedding light on the complexities of TRAIL’s role in cancer, where both procancer and anticancer effects are observed.

Courtesy University of Pittsburgh School of Medicine
Dr. Sungjin Ko
Importantly, they unveiled that noncanonical TRAIL signaling contributes to suppressing the tumor microenvironment by promoting the accumulation of myeloid-derived suppressor cells which can be further mitigated by a novel strategy targeting FLICE inhibitory protein to increase cancer cell sensitivity to proapoptotic TRAIL signaling, presenting a potential avenue for therapeutic intervention as well as biomarkers predictive of TRAIL response for CCA.

Further investigation is warranted to explore how TRAIL/TRAIL-R therapy can be effectively combined with other broad-spectrum and/or targeted therapies to maximize selective toxicity to CCA cells, sparing the nonmalignant tissue, thereby extending the lifespan of CCA patients as well as assessing its preventive potential in predisposed premalignant stages, including cholestasis patients.
 

Sungjin Ko, DVM, PhD, is assistant professor in the Division of Experimental Pathology at the University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania. He is also a member of the Pittsburgh Liver Research Center. He reported no conflicts of interest.

Body

 

The dismal response of cholangiocarcinoma to immune checkpoint inhibitors (ICI) is particularly concerning, as it impedes the adoption of combination regimens, now standard in most solid tumors. Strategies modulating selective genes involved in the tumor inflammatory environment and tumor cell viability, including those within the tumor necrosis factor superfamily, parallel the mechanism of action of ICI and present a double-edged sword due to the context-dependent pro- and/or anticancer effects of their canonical and/or phantom roles.

Recent investigations suggest that selectively antagonizing TRAIL via (TRAIL/TRAIL-R) targeting may be more effective than agonism. Dr. Ilyas’ group from Mayo Clinic delved into the potential of TRAIL in cancer biology, particularly in CCA, shedding light on the complexities of TRAIL’s role in cancer, where both procancer and anticancer effects are observed.

Courtesy University of Pittsburgh School of Medicine
Dr. Sungjin Ko
Importantly, they unveiled that noncanonical TRAIL signaling contributes to suppressing the tumor microenvironment by promoting the accumulation of myeloid-derived suppressor cells which can be further mitigated by a novel strategy targeting FLICE inhibitory protein to increase cancer cell sensitivity to proapoptotic TRAIL signaling, presenting a potential avenue for therapeutic intervention as well as biomarkers predictive of TRAIL response for CCA.

Further investigation is warranted to explore how TRAIL/TRAIL-R therapy can be effectively combined with other broad-spectrum and/or targeted therapies to maximize selective toxicity to CCA cells, sparing the nonmalignant tissue, thereby extending the lifespan of CCA patients as well as assessing its preventive potential in predisposed premalignant stages, including cholestasis patients.
 

Sungjin Ko, DVM, PhD, is assistant professor in the Division of Experimental Pathology at the University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania. He is also a member of the Pittsburgh Liver Research Center. He reported no conflicts of interest.

Title
Further Investigation is Warranted
Further Investigation is Warranted

Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL)–targeting therapies still hold promise for treating cholangiocarcinoma (CCA) despite disappointing results in previous preclinical research, primarily due to the adaptive resistance and unexpected immune modulation, according to investigators.

Those prior studies evaluated a combination of immunotherapy and TRAIL agonism, but selective TRAIL antagonism shows greater potential via dual ligand/receptor (TRAIL/TRAIL-R) targeting to block immunosuppression, reported lead author Emilien J. Loeuillard, PhD, of Mayo Clinic, Rochester, Minnesota, and colleagues.

Courtesy Dr. Emilien J. Loeuillard
Dr. Emilien J. Loeuillard

“The TRAIL/TRAIL-R system has garnered considerable interest in cancer biology, especially as a potential anticancer therapy,” the investigators wrote in Cellular and Molecular Gastroenterology and Hepatology. “However, TRAIL-R agonists have had very limited anticancer activity in human beings, challenging this concept of TRAIL as an anticancer agent.”

This may be because they were working in the wrong direction, Dr. Loeuillard and colleagues suggested, citing recent work linking TRAIL with tumor proliferation and invasion, possibly via modification of the tumor immune microenvironment.

Exact mechanisms of modification, however, remain unclear. While TRAIL has been associated with tumor-promoting effects like induction of a promyeloid secretome in adenocarcinoma, it has also been linked with anticancer effects like activation of natural killer cells and cytotoxic T lymphocytes.

“Thus, the potency and hierarchy of TRAIL anticancer vs procancer processes in cancer biology has yet to be defined,” the investigators wrote.

While TRAIL ligation of cognate receptors has been previously investigated and shown to trigger proapoptotic signaling pathways, noncanonical TRAIL-mediated signaling remains largely unexplored, particularly in CCA.

The present study evaluated TRAIL biology in CCA using immunocompetent mouse models.

These experiments showed that noncanonical TRAIL signaling immunosuppresses the tumor microenvironment by increasing quantity and activity of myeloid-derived suppressor cells (MDSCs). Blocking noncanonical TRAIL signaling by selective deletion of TRAIL-R in immune cells had significantly reduced tumor volumes alongside fewer MDSCs, driven by FLICE inhibitory protein (cFLIP)-dependent nuclear factor kappa-B activation (NF-kappa-B) in MDSCs, which has antiapoptotic activity. While MDSCs present one possible target in this chain of immunosuppression, “therapeutic strategies for targeting MDSCs are limited,” the investigators wrote, noting that available myeloid modulators have fallen short in clinical trials.

Instead, cFLIP may be a convincing option, they suggested, as targeting cFLIP can sensitize cancer cells to proapoptotic TRAIL signaling. What’s more, cFLIP appears to protect MDSCs from TRAIL-mediated apoptosis, so taking out this barrier could render MDSCs susceptible to therapy.

“Our studies suggest that switching prosurvival/proliferation TRAIL signaling to canonical proapoptotic TRAIL signaling will promote MDSC apoptosis, which in turn has therapeutic implications for CCA suppression,” the investigators wrote.

Hope therefore remains for targeting TRAIL in patients with CCA, but with selective antagonism instead of agonism, as previously attempted.

“In summary, our findings support the role of selective therapeutic targeting of TRAIL-positive cancer cells in an effort to block TRAIL/TRAIL-R–mediated tumor immunosuppression,” Dr. Loeuillard and colleagues concluded.

This study was funded by the Cholangiocarcinoma Foundation and the Mayo Clinic Eagles 5th District Cancer Telethon Funds for Research Fellowship Program, the CTSA/National Center for Advancing Translational Science, the National Institutes of Health/National Cancer Institute, and others. The investigators disclosed no conflicts of interest.

Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL)–targeting therapies still hold promise for treating cholangiocarcinoma (CCA) despite disappointing results in previous preclinical research, primarily due to the adaptive resistance and unexpected immune modulation, according to investigators.

Those prior studies evaluated a combination of immunotherapy and TRAIL agonism, but selective TRAIL antagonism shows greater potential via dual ligand/receptor (TRAIL/TRAIL-R) targeting to block immunosuppression, reported lead author Emilien J. Loeuillard, PhD, of Mayo Clinic, Rochester, Minnesota, and colleagues.

Courtesy Dr. Emilien J. Loeuillard
Dr. Emilien J. Loeuillard

“The TRAIL/TRAIL-R system has garnered considerable interest in cancer biology, especially as a potential anticancer therapy,” the investigators wrote in Cellular and Molecular Gastroenterology and Hepatology. “However, TRAIL-R agonists have had very limited anticancer activity in human beings, challenging this concept of TRAIL as an anticancer agent.”

This may be because they were working in the wrong direction, Dr. Loeuillard and colleagues suggested, citing recent work linking TRAIL with tumor proliferation and invasion, possibly via modification of the tumor immune microenvironment.

Exact mechanisms of modification, however, remain unclear. While TRAIL has been associated with tumor-promoting effects like induction of a promyeloid secretome in adenocarcinoma, it has also been linked with anticancer effects like activation of natural killer cells and cytotoxic T lymphocytes.

“Thus, the potency and hierarchy of TRAIL anticancer vs procancer processes in cancer biology has yet to be defined,” the investigators wrote.

While TRAIL ligation of cognate receptors has been previously investigated and shown to trigger proapoptotic signaling pathways, noncanonical TRAIL-mediated signaling remains largely unexplored, particularly in CCA.

The present study evaluated TRAIL biology in CCA using immunocompetent mouse models.

These experiments showed that noncanonical TRAIL signaling immunosuppresses the tumor microenvironment by increasing quantity and activity of myeloid-derived suppressor cells (MDSCs). Blocking noncanonical TRAIL signaling by selective deletion of TRAIL-R in immune cells had significantly reduced tumor volumes alongside fewer MDSCs, driven by FLICE inhibitory protein (cFLIP)-dependent nuclear factor kappa-B activation (NF-kappa-B) in MDSCs, which has antiapoptotic activity. While MDSCs present one possible target in this chain of immunosuppression, “therapeutic strategies for targeting MDSCs are limited,” the investigators wrote, noting that available myeloid modulators have fallen short in clinical trials.

Instead, cFLIP may be a convincing option, they suggested, as targeting cFLIP can sensitize cancer cells to proapoptotic TRAIL signaling. What’s more, cFLIP appears to protect MDSCs from TRAIL-mediated apoptosis, so taking out this barrier could render MDSCs susceptible to therapy.

“Our studies suggest that switching prosurvival/proliferation TRAIL signaling to canonical proapoptotic TRAIL signaling will promote MDSC apoptosis, which in turn has therapeutic implications for CCA suppression,” the investigators wrote.

Hope therefore remains for targeting TRAIL in patients with CCA, but with selective antagonism instead of agonism, as previously attempted.

“In summary, our findings support the role of selective therapeutic targeting of TRAIL-positive cancer cells in an effort to block TRAIL/TRAIL-R–mediated tumor immunosuppression,” Dr. Loeuillard and colleagues concluded.

This study was funded by the Cholangiocarcinoma Foundation and the Mayo Clinic Eagles 5th District Cancer Telethon Funds for Research Fellowship Program, the CTSA/National Center for Advancing Translational Science, the National Institutes of Health/National Cancer Institute, and others. The investigators disclosed no conflicts of interest.

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