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Lipoxin-Induced Phenotypic Changes in CD115 + LY6C hi Monocytes TAM Precursors Inhibits Tumor Development
During tumor development, the spleen acts as an extra-medullar reservoir of LY6C inflammatory monocytes, which can migrate toward tumor to differentiate into tumor-associated macrophage (TAMs), renewing the TAM population. In the tumor microenvironment, pro-inflammatory macrophages (M1) acquire anti...
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| Published in: | Frontiers in oncology 2019, Vol.9, p.540 |
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| Language: | English |
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| container_title | Frontiers in oncology |
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| creator | de-Brito, Natália Mesquita da-Costa, Hayandra Cunha Simões, Rafael Loureiro Barja-Fidalgo, Christina |
| description | During tumor development, the spleen acts as an extra-medullar reservoir of LY6C
inflammatory monocytes, which can migrate toward tumor to differentiate into tumor-associated macrophage (TAMs), renewing the TAM population. In the tumor microenvironment, pro-inflammatory macrophages (M1) acquire anti-inflammatory and pro-tumor (M2) characteristics favoring tumor development. We previously demonstrated that lipoxins, a family of pro-resolving lipid mediators, restored
the cytotoxic M1-like properties of TAMs.
In this study, we have investigated
the cellular mechanisms underlying the anti-tumor property of lipoxins.
Fourteen days after inducing B16-F10 melanoma tumors, mice received one single dose of ATL-1 (1 μg/i.v.), a lipoxin A4 analog. After further 7 days, blood and bone-marrow were collected, tumors and spleens were removed, and TAMs and blood monocytes were isolated.
While the population of LY6C
monocytes was increased in non-treated tumor-bearing mice, the treatment with ATL-1 diminished the population of LY6C
monocytes in spleen, blood and bone marrow, decreasing macrophage infiltration into the tumor and reducing the M2 markers expression on TAMs. Importantly, those effects were accompanied by an impairment of tumor growth and improved survival of tumor-bearing mice. The data evidence the anti-tumor mechanism of ATL-1, by decreasing the availability of TAM-precursor monocytes and changing TAMs profile
, impairing tumor progression. ATL-1 may become a new tool in cancer control. |
| format | article |
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inflammatory monocytes, which can migrate toward tumor to differentiate into tumor-associated macrophage (TAMs), renewing the TAM population. In the tumor microenvironment, pro-inflammatory macrophages (M1) acquire anti-inflammatory and pro-tumor (M2) characteristics favoring tumor development. We previously demonstrated that lipoxins, a family of pro-resolving lipid mediators, restored
the cytotoxic M1-like properties of TAMs.
In this study, we have investigated
the cellular mechanisms underlying the anti-tumor property of lipoxins.
Fourteen days after inducing B16-F10 melanoma tumors, mice received one single dose of ATL-1 (1 μg/i.v.), a lipoxin A4 analog. After further 7 days, blood and bone-marrow were collected, tumors and spleens were removed, and TAMs and blood monocytes were isolated.
While the population of LY6C
monocytes was increased in non-treated tumor-bearing mice, the treatment with ATL-1 diminished the population of LY6C
monocytes in spleen, blood and bone marrow, decreasing macrophage infiltration into the tumor and reducing the M2 markers expression on TAMs. Importantly, those effects were accompanied by an impairment of tumor growth and improved survival of tumor-bearing mice. The data evidence the anti-tumor mechanism of ATL-1, by decreasing the availability of TAM-precursor monocytes and changing TAMs profile
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inflammatory monocytes, which can migrate toward tumor to differentiate into tumor-associated macrophage (TAMs), renewing the TAM population. In the tumor microenvironment, pro-inflammatory macrophages (M1) acquire anti-inflammatory and pro-tumor (M2) characteristics favoring tumor development. We previously demonstrated that lipoxins, a family of pro-resolving lipid mediators, restored
the cytotoxic M1-like properties of TAMs.
In this study, we have investigated
the cellular mechanisms underlying the anti-tumor property of lipoxins.
Fourteen days after inducing B16-F10 melanoma tumors, mice received one single dose of ATL-1 (1 μg/i.v.), a lipoxin A4 analog. After further 7 days, blood and bone-marrow were collected, tumors and spleens were removed, and TAMs and blood monocytes were isolated.
While the population of LY6C
monocytes was increased in non-treated tumor-bearing mice, the treatment with ATL-1 diminished the population of LY6C
monocytes in spleen, blood and bone marrow, decreasing macrophage infiltration into the tumor and reducing the M2 markers expression on TAMs. Importantly, those effects were accompanied by an impairment of tumor growth and improved survival of tumor-bearing mice. The data evidence the anti-tumor mechanism of ATL-1, by decreasing the availability of TAM-precursor monocytes and changing TAMs profile
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inflammatory monocytes, which can migrate toward tumor to differentiate into tumor-associated macrophage (TAMs), renewing the TAM population. In the tumor microenvironment, pro-inflammatory macrophages (M1) acquire anti-inflammatory and pro-tumor (M2) characteristics favoring tumor development. We previously demonstrated that lipoxins, a family of pro-resolving lipid mediators, restored
the cytotoxic M1-like properties of TAMs.
In this study, we have investigated
the cellular mechanisms underlying the anti-tumor property of lipoxins.
Fourteen days after inducing B16-F10 melanoma tumors, mice received one single dose of ATL-1 (1 μg/i.v.), a lipoxin A4 analog. After further 7 days, blood and bone-marrow were collected, tumors and spleens were removed, and TAMs and blood monocytes were isolated.
While the population of LY6C
monocytes was increased in non-treated tumor-bearing mice, the treatment with ATL-1 diminished the population of LY6C
monocytes in spleen, blood and bone marrow, decreasing macrophage infiltration into the tumor and reducing the M2 markers expression on TAMs. Importantly, those effects were accompanied by an impairment of tumor growth and improved survival of tumor-bearing mice. The data evidence the anti-tumor mechanism of ATL-1, by decreasing the availability of TAM-precursor monocytes and changing TAMs profile
, impairing tumor progression. ATL-1 may become a new tool in cancer control.</abstract><cop>Switzerland</cop><pmid>31275860</pmid></addata></record> |
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| title | Lipoxin-Induced Phenotypic Changes in CD115 + LY6C hi Monocytes TAM Precursors Inhibits Tumor Development |
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