Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors

Pakawat Chongsathidkiet; Christina Jackson; Shohei Koyama; Franziska Loebel; Xiuyu Cui; S. Harrison Farber; Karolina Woroniecka; Aladine A. Elsamadicy; Cosette A. Dechant; Hanna R. Kemeny; Luis Sanchez-Perez; Tooba A. Cheema; Nicholas C. Souders; James E. Herndon; Jean Valery Coumans; Jeffrey I. Everitt; Brian V. Nahed; John H. Sampson; Michael D. Gunn; Robert L. Martuza; Glenn Dranoff; William T. Curry; Peter E. Fecci

doi:10.1038/s41591-018-0135-2

Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors

Pakawat Chongsathidkiet, Christina Jackson, Shohei Koyama, Franziska Loebel, Xiuyu Cui, S. Harrison Farber, Karolina Woroniecka, Aladine A. Elsamadicy, Cosette A. Dechant, Hanna R. Kemeny, Luis Sanchez-Perez, Tooba A. Cheema, Nicholas C. Souders, James E. Herndon, Jean Valery Coumans, Jeffrey I. Everitt, Brian V. Nahed, John H. Sampson, Michael D. Gunn, Robert L. MartuzaGlenn Dranoff, William T. Curry, Peter E. Fecci

Research output: Contribution to journal › Article › peer-review

472 Scopus citations

Abstract

T cell dysfunction contributes to tumor immune escape in patients with cancer and is particularly severe amidst glioblastoma (GBM). Among other defects, T cell lymphopenia is characteristic, yet often attributed to treatment. We reveal that even treatment-naïve subjects and mice with GBM can harbor AIDS-level CD4 counts, as well as contracted, T cell–deficient lymphoid organs. Missing naïve T cells are instead found sequestered in large numbers in the bone marrow. This phenomenon characterizes not only GBM but a variety of other cancers, although only when tumors are introduced into the intracranial compartment. T cell sequestration is accompanied by tumor-imposed loss of S1P1 from the T cell surface and is reversible upon precluding S1P1 internalization. In murine models of GBM, hindering S1P1 internalization and reversing sequestration licenses T cell–activating therapies that were previously ineffective. Sequestration of T cells in bone marrow is therefore a tumor-adaptive mode of T cell dysfunction, whose reversal may constitute a promising immunotherapeutic adjunct.

Original language	English
Pages (from-to)	1459-1468
Number of pages	10
Journal	Nature Medicine
Volume	24
Issue number	9
DOIs	https://doi.org/10.1038/s41591-018-0135-2
State	Published - 1 Sep 2018
Externally published	Yes

Access to Document

10.1038/s41591-018-0135-2

Cite this

Chongsathidkiet, P., Jackson, C., Koyama, S., Loebel, F., Cui, X., Farber, S. H., Woroniecka, K., Elsamadicy, A. A., Dechant, C. A., Kemeny, H. R., Sanchez-Perez, L., Cheema, T. A., Souders, N. C., Herndon, J. E., Coumans, J. V., Everitt, J. I., Nahed, B. V., Sampson, J. H., Gunn, M. D., ... Fecci, P. E. (2018). Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors. Nature Medicine, 24(9), 1459-1468. https://doi.org/10.1038/s41591-018-0135-2

@article{3d5094b71a46460598c4399c70fc3017,

title = "Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors",

abstract = "T cell dysfunction contributes to tumor immune escape in patients with cancer and is particularly severe amidst glioblastoma (GBM). Among other defects, T cell lymphopenia is characteristic, yet often attributed to treatment. We reveal that even treatment-na{\"i}ve subjects and mice with GBM can harbor AIDS-level CD4 counts, as well as contracted, T cell–deficient lymphoid organs. Missing na{\"i}ve T cells are instead found sequestered in large numbers in the bone marrow. This phenomenon characterizes not only GBM but a variety of other cancers, although only when tumors are introduced into the intracranial compartment. T cell sequestration is accompanied by tumor-imposed loss of S1P1 from the T cell surface and is reversible upon precluding S1P1 internalization. In murine models of GBM, hindering S1P1 internalization and reversing sequestration licenses T cell–activating therapies that were previously ineffective. Sequestration of T cells in bone marrow is therefore a tumor-adaptive mode of T cell dysfunction, whose reversal may constitute a promising immunotherapeutic adjunct.",

author = "Pakawat Chongsathidkiet and Christina Jackson and Shohei Koyama and Franziska Loebel and Xiuyu Cui and Farber, {S. Harrison} and Karolina Woroniecka and Elsamadicy, {Aladine A.} and Dechant, {Cosette A.} and Kemeny, {Hanna R.} and Luis Sanchez-Perez and Cheema, {Tooba A.} and Souders, {Nicholas C.} and Herndon, {James E.} and Coumans, {Jean Valery} and Everitt, {Jeffrey I.} and Nahed, {Brian V.} and Sampson, {John H.} and Gunn, {Michael D.} and Martuza, {Robert L.} and Glenn Dranoff and Curry, {William T.} and Fecci, {Peter E.}",

note = "Publisher Copyright: {\textcopyright} 2018, The Author(s).",

year = "2018",

month = sep,

day = "1",

doi = "10.1038/s41591-018-0135-2",

language = "English",

volume = "24",

pages = "1459--1468",

journal = "Nature Medicine",

issn = "1078-8956",

publisher = "Nature Research",

number = "9",

}

Chongsathidkiet, P, Jackson, C, Koyama, S, Loebel, F, Cui, X, Farber, SH, Woroniecka, K, Elsamadicy, AA, Dechant, CA, Kemeny, HR, Sanchez-Perez, L, Cheema, TA, Souders, NC, Herndon, JE, Coumans, JV, Everitt, JI, Nahed, BV, Sampson, JH, Gunn, MD, Martuza, RL, Dranoff, G, Curry, WT & Fecci, PE 2018, 'Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors', Nature Medicine, vol. 24, no. 9, pp. 1459-1468. https://doi.org/10.1038/s41591-018-0135-2

TY - JOUR

T1 - Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors

AU - Chongsathidkiet, Pakawat

AU - Jackson, Christina

AU - Koyama, Shohei

AU - Loebel, Franziska

AU - Cui, Xiuyu

AU - Farber, S. Harrison

AU - Woroniecka, Karolina

AU - Elsamadicy, Aladine A.

AU - Dechant, Cosette A.

AU - Kemeny, Hanna R.

AU - Sanchez-Perez, Luis

AU - Cheema, Tooba A.

AU - Souders, Nicholas C.

AU - Herndon, James E.

AU - Coumans, Jean Valery

AU - Everitt, Jeffrey I.

AU - Nahed, Brian V.

AU - Sampson, John H.

AU - Gunn, Michael D.

AU - Martuza, Robert L.

AU - Dranoff, Glenn

AU - Curry, William T.

AU - Fecci, Peter E.

PY - 2018/9/1

Y1 - 2018/9/1

N2 - T cell dysfunction contributes to tumor immune escape in patients with cancer and is particularly severe amidst glioblastoma (GBM). Among other defects, T cell lymphopenia is characteristic, yet often attributed to treatment. We reveal that even treatment-naïve subjects and mice with GBM can harbor AIDS-level CD4 counts, as well as contracted, T cell–deficient lymphoid organs. Missing naïve T cells are instead found sequestered in large numbers in the bone marrow. This phenomenon characterizes not only GBM but a variety of other cancers, although only when tumors are introduced into the intracranial compartment. T cell sequestration is accompanied by tumor-imposed loss of S1P1 from the T cell surface and is reversible upon precluding S1P1 internalization. In murine models of GBM, hindering S1P1 internalization and reversing sequestration licenses T cell–activating therapies that were previously ineffective. Sequestration of T cells in bone marrow is therefore a tumor-adaptive mode of T cell dysfunction, whose reversal may constitute a promising immunotherapeutic adjunct.

AB - T cell dysfunction contributes to tumor immune escape in patients with cancer and is particularly severe amidst glioblastoma (GBM). Among other defects, T cell lymphopenia is characteristic, yet often attributed to treatment. We reveal that even treatment-naïve subjects and mice with GBM can harbor AIDS-level CD4 counts, as well as contracted, T cell–deficient lymphoid organs. Missing naïve T cells are instead found sequestered in large numbers in the bone marrow. This phenomenon characterizes not only GBM but a variety of other cancers, although only when tumors are introduced into the intracranial compartment. T cell sequestration is accompanied by tumor-imposed loss of S1P1 from the T cell surface and is reversible upon precluding S1P1 internalization. In murine models of GBM, hindering S1P1 internalization and reversing sequestration licenses T cell–activating therapies that were previously ineffective. Sequestration of T cells in bone marrow is therefore a tumor-adaptive mode of T cell dysfunction, whose reversal may constitute a promising immunotherapeutic adjunct.

UR - http://www.scopus.com/inward/record.url?scp=85052329798&partnerID=8YFLogxK

U2 - 10.1038/s41591-018-0135-2

DO - 10.1038/s41591-018-0135-2

M3 - Article

C2 - 30104766

AN - SCOPUS:85052329798

SN - 1078-8956

VL - 24

SP - 1459

EP - 1468

JO - Nature Medicine

JF - Nature Medicine

IS - 9

ER -

Sequestration of T cells in bone marrow in the setting of glioblastoma and other intracranial tumors

Abstract

Access to Document

Fingerprint

Cite this