A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.

Accumulating evidence has suggested a correlation of tumor infiltrating B cells (TiBcs) and a good prognosis of cancer diseases. In some cases, TiBcs appear to have experienced antigen stimulation since they have undergone class-switching and somatic hypermutation and formed tertiary lymphoid struct...

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Main Authors: Xinying Wang, Shohei Asami, Daisuke Kitamura
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2021-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0245608
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spelling doaj-5b432ae4ad9f4364806b6d0c58cf6a892021-06-19T05:30:10ZengPublic Library of Science (PLoS)PLoS ONE1932-62032021-01-01161e024560810.1371/journal.pone.0245608A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.Xinying WangShohei AsamiDaisuke KitamuraAccumulating evidence has suggested a correlation of tumor infiltrating B cells (TiBcs) and a good prognosis of cancer diseases. In some cases, TiBcs appear to have experienced antigen stimulation since they have undergone class-switching and somatic hypermutation and formed tertiary lymphoid structures around tumors together with T cells. Assuming TiBcs include those that recognize some tumor antigens, we sought to investigate their possible usefulness for cell-mediated immunotherapies. To expand usually small number of TiBcs in vitro, we modified our B cell culture system: we transduced B cells with ERT2-Bach2 so that they grow unlimitedly provided with tamoxifen, IL-21 and our original feeder cells. Such cells differentiate into plasma cells and produce antibodies upon withdrawal of tamoxifen, and further by addition of a Bach2-inhibitor in vitro. As a preliminary experiment, thus expanded splenic B cells expressing a transgenic antigen receptor/antibody against hen egg lysozyme were intravenously injected into mice pre-implanted with B16 melanoma cells expressing membrane-bound HEL in the skin, which resulted in suppression of the growth of B16 tumors and prolonged survival of the recipient mice. To test the usefulness of TiBcs for the immunotherapy, we next used APCmin/+ mice as a model that spontaneously develop intestinal tumors. We cultured TiBcs separated from the tumors of APCmin/+ mice as above and confirmed that the antibodies they produce recognize the APCmin/+ tumor. Repeated injection of such TiBcs into adult APCmin/+ mice resulted in suppression of intestinal tumor growth and elongation of the survival of the recipient mice. Serum antibody from the TiBc-recipient mice selectively bound to an antigen expressed in the tumor of APCmin/+ mice. These data suggest a possibility of the novel individualized cancer immunotherapy, in which TiBcs from surgically excised tumor tissues are expanded and infused into the donor patients.https://doi.org/10.1371/journal.pone.0245608
collection DOAJ
language English
format Article
sources DOAJ
author Xinying Wang
Shohei Asami
Daisuke Kitamura
spellingShingle Xinying Wang
Shohei Asami
Daisuke Kitamura
A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.
PLoS ONE
author_facet Xinying Wang
Shohei Asami
Daisuke Kitamura
author_sort Xinying Wang
title A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.
title_short A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.
title_full A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.
title_fullStr A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.
title_full_unstemmed A novel cancer immunotherapy using tumor-infiltrating B cells in the APCmin/+ mouse model.
title_sort novel cancer immunotherapy using tumor-infiltrating b cells in the apcmin/+ mouse model.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2021-01-01
description Accumulating evidence has suggested a correlation of tumor infiltrating B cells (TiBcs) and a good prognosis of cancer diseases. In some cases, TiBcs appear to have experienced antigen stimulation since they have undergone class-switching and somatic hypermutation and formed tertiary lymphoid structures around tumors together with T cells. Assuming TiBcs include those that recognize some tumor antigens, we sought to investigate their possible usefulness for cell-mediated immunotherapies. To expand usually small number of TiBcs in vitro, we modified our B cell culture system: we transduced B cells with ERT2-Bach2 so that they grow unlimitedly provided with tamoxifen, IL-21 and our original feeder cells. Such cells differentiate into plasma cells and produce antibodies upon withdrawal of tamoxifen, and further by addition of a Bach2-inhibitor in vitro. As a preliminary experiment, thus expanded splenic B cells expressing a transgenic antigen receptor/antibody against hen egg lysozyme were intravenously injected into mice pre-implanted with B16 melanoma cells expressing membrane-bound HEL in the skin, which resulted in suppression of the growth of B16 tumors and prolonged survival of the recipient mice. To test the usefulness of TiBcs for the immunotherapy, we next used APCmin/+ mice as a model that spontaneously develop intestinal tumors. We cultured TiBcs separated from the tumors of APCmin/+ mice as above and confirmed that the antibodies they produce recognize the APCmin/+ tumor. Repeated injection of such TiBcs into adult APCmin/+ mice resulted in suppression of intestinal tumor growth and elongation of the survival of the recipient mice. Serum antibody from the TiBc-recipient mice selectively bound to an antigen expressed in the tumor of APCmin/+ mice. These data suggest a possibility of the novel individualized cancer immunotherapy, in which TiBcs from surgically excised tumor tissues are expanded and infused into the donor patients.
url https://doi.org/10.1371/journal.pone.0245608
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