Donor natural killer cells trigger production of β-2-microglobulin to enhance post–bone marrow transplant immunity

Loredana Ruggeri; Elena Urbani; Davide Chiasserini; Federica Susta; Pier Luigi Orvietani; Emanuela Burchielli; Sara Ciardelli; Rosaria Sola; Stefano Bruscoli; Antonella Cardinale; Antonio Pierini; Sander R. Piersma; Stefano Pasquino; Franco Locatelli; Dunia Ramarli; Enrico Velardi; Luciano Binaglia; Connie R. Jimenez; Georg A. Holländer; Andrea Velardi

doi:https://doi.org/10.1182/blood.2021015297

Donor natural killer cells trigger production of β-2-microglobulin to enhance post–bone marrow transplant immunity

Loredana Ruggeri, Elena Urbani, Davide Chiasserini, Federica Susta, Pier Luigi Orvietani, Emanuela Burchielli, Sara Ciardelli, Rosaria Sola, Stefano Bruscoli, Antonella Cardinale, Antonio Pierini, Sander R. Piersma, Stefano Pasquino, Franco Locatelli, Dunia Ramarli, Enrico Velardi, Luciano Binaglia, Connie R. Jimenez, Georg A. Holländer, Andrea Velardi

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Abstract

Allogeneic hematopoietic transplantation is a powerful treatment for hematologic malignancies. Posttransplant immune incompetence exposes patients to disease relapse and infections. We previously demonstrated that donor alloreactive natural killer (NK) cells ablate recipient hematopoietic targets, including leukemia. Here, in murine models, we show that infusion of donor alloreactive NK cells triggers recipient dendritic cells (DCs) to synthesize β-2-microglobulin (B2M) that elicits the release of c-KIT ligand and interleukin-7 that greatly accelerate posttransplant immune reconstitution. An identical chain of events was reproduced by infusing supernatants of alloreactive NK/DC cocultures. Similarly, human alloreactive NK cells triggered human DCs to synthesize B2M that induced interleukin-7 production by thymic epithelial cells and thereby supported thymocyte cellularity in vitro. Chromatography fractionation of murine and human alloreactive NK/DC coculture supernatants identified a protein with molecular weight and isoelectric point of B2M, and mass spectrometry identified amino acid sequences specific of B2M. Anti-B2M antibody depletion of NK/DC coculture supernatants abrogated their immune-rebuilding effect. B2M knock-out mice were unable to undergo accelerated immune reconstitution, but infusion of (wild-type) NK/DC coculture supernatants restored their ability to undergo accelerated immune reconstitution. Similarly, silencing the B2M gene in human DCs, before coculture with alloreactive NK cells, prevented the increase in thymocyte cellularity in vitro. Finally, human recombinant B2M increased thymocyte cellularity in a thymic epithelial cells/thymocyte culture system. Our studies uncover a novel therapeutic principle for treating posttransplant immune incompetence and suggest that, upon its translation to the clinic, patients may benefit from adoptive transfer of large numbers of cytokine-activated, ex vivo–expanded donor alloreactive NK cells.

Original language	English
Pages (from-to)	2323-2334
Number of pages	12
Journal	Blood
Volume	140
Issue number	22
DOIs	https://doi.org/10.1182/blood.2021015297
Publication status	Published - 1 Dec 2022

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Ruggeri, L., Urbani, E., Chiasserini, D., Susta, F., Orvietani, P. L., Burchielli, E., Ciardelli, S., Sola, R., Bruscoli, S., Cardinale, A., Pierini, A., Piersma, S. R., Pasquino, S., Locatelli, F., Ramarli, D., Velardi, E., Binaglia, L., Jimenez, C. R., Holländer, G. A., & Velardi, A. (2022). Donor natural killer cells trigger production of β-2-microglobulin to enhance post–bone marrow transplant immunity. Blood, 140(22), 2323-2334. https://doi.org/10.1182/blood.2021015297

@article{b93a415ee684491991d781620184ff33,

title = "Donor natural killer cells trigger production of β-2-microglobulin to enhance post–bone marrow transplant immunity",

abstract = "Allogeneic hematopoietic transplantation is a powerful treatment for hematologic malignancies. Posttransplant immune incompetence exposes patients to disease relapse and infections. We previously demonstrated that donor alloreactive natural killer (NK) cells ablate recipient hematopoietic targets, including leukemia. Here, in murine models, we show that infusion of donor alloreactive NK cells triggers recipient dendritic cells (DCs) to synthesize β-2-microglobulin (B2M) that elicits the release of c-KIT ligand and interleukin-7 that greatly accelerate posttransplant immune reconstitution. An identical chain of events was reproduced by infusing supernatants of alloreactive NK/DC cocultures. Similarly, human alloreactive NK cells triggered human DCs to synthesize B2M that induced interleukin-7 production by thymic epithelial cells and thereby supported thymocyte cellularity in vitro. Chromatography fractionation of murine and human alloreactive NK/DC coculture supernatants identified a protein with molecular weight and isoelectric point of B2M, and mass spectrometry identified amino acid sequences specific of B2M. Anti-B2M antibody depletion of NK/DC coculture supernatants abrogated their immune-rebuilding effect. B2M knock-out mice were unable to undergo accelerated immune reconstitution, but infusion of (wild-type) NK/DC coculture supernatants restored their ability to undergo accelerated immune reconstitution. Similarly, silencing the B2M gene in human DCs, before coculture with alloreactive NK cells, prevented the increase in thymocyte cellularity in vitro. Finally, human recombinant B2M increased thymocyte cellularity in a thymic epithelial cells/thymocyte culture system. Our studies uncover a novel therapeutic principle for treating posttransplant immune incompetence and suggest that, upon its translation to the clinic, patients may benefit from adoptive transfer of large numbers of cytokine-activated, ex vivo–expanded donor alloreactive NK cells.",

author = "Loredana Ruggeri and Elena Urbani and Davide Chiasserini and Federica Susta and Orvietani, {Pier Luigi} and Emanuela Burchielli and Sara Ciardelli and Rosaria Sola and Stefano Bruscoli and Antonella Cardinale and Antonio Pierini and Piersma, {Sander R.} and Stefano Pasquino and Franco Locatelli and Dunia Ramarli and Enrico Velardi and Luciano Binaglia and Jimenez, {Connie R.} and Holl{\"a}nder, {Georg A.} and Andrea Velardi",

note = "Funding Information: This work was supported by grants from the Italian Association for Cancer Research (AIRC), the Swiss National Science Foundation , the Leukemia and Lymphoma Society , and the Italian Ministry for Further Education. Vrije Universiteit Medical Center-Cancer Center Amsterdam is acknowledged for support of the mass spectrometry infrastructure. E.V. was supported by grants from the Amy Strelzer Manasevit Research Program and AIRC. Funding Information: The authors thank Temistocle Ragni (Ospedale Santa Maria della Misericordia, Perugia) and Adriano Carotti (Ospedale Bambino Ges{\`u}, Roma) for thymic tissue samples obtained during corrective cardiovascular surgery. The authors also thank Massimo F. Martelli, Professor Emeritus, University of Perugia, for critical review of the manuscript and helpful advice. This work was supported by grants from the Italian Association for Cancer Research (AIRC), the Swiss National Science Foundation, the Leukemia and Lymphoma Society, and the Italian Ministry for Further Education. Vrije Universiteit Medical Center-Cancer Center Amsterdam is acknowledged for support of the mass spectrometry infrastructure. E.V. was supported by grants from the Amy Strelzer Manasevit Research Program and AIRC. Contribution: L.R. designed and performed experiments and wrote paper; E.U. S.C. and R. S. performed murine transplant experiments and human cell cultures; F.S. and P.L.O. performed biochemical analyses; E.B. performed murine immune reconstitution analyses; D.C. designed and performed proteomics analyses and wrote paper; S.R.P. performed proteomics analyses; S.B. performed human RNA silencing experiments; D.R. contributed to human thymocyte culture experiments; S.P. as heart surgeon at the Ospedale Santa Maria della Misericordia, Perugia, provided human thymic tissue samples obtained during corrective cardiovascular surgery; L.B. conceived, designed, and supervised biochemical analyses and critically revised the manuscript; C.R.J. supervised proteomics analyses and critically revised the manuscript; G.A.H. designed experiments, provided constructive suggestions, and wrote paper; E.V. and A.C performed GSEA and revised the manuscript; A.P. and F.L. revised the manuscript; and A.V. conceived and supervised the project, designed experiments, and wrote the paper. Publisher Copyright: {\textcopyright} 2022 The American Society of Hematology",

year = "2022",

month = dec,

day = "1",

doi = "https://doi.org/10.1182/blood.2021015297",

language = "English",

volume = "140",

pages = "2323--2334",

journal = "Blood",

issn = "0006-4971",

publisher = "American Society of Hematology",

number = "22",

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Ruggeri, L, Urbani, E, Chiasserini, D, Susta, F, Orvietani, PL, Burchielli, E, Ciardelli, S, Sola, R, Bruscoli, S, Cardinale, A, Pierini, A, Piersma, SR, Pasquino, S, Locatelli, F, Ramarli, D, Velardi, E, Binaglia, L, Jimenez, CR, Holländer, GA & Velardi, A 2022, 'Donor natural killer cells trigger production of β-2-microglobulin to enhance post–bone marrow transplant immunity', Blood, vol. 140, no. 22, pp. 2323-2334. https://doi.org/10.1182/blood.2021015297

TY - JOUR

T1 - Donor natural killer cells trigger production of β-2-microglobulin to enhance post–bone marrow transplant immunity

AU - Ruggeri, Loredana

AU - Urbani, Elena

AU - Chiasserini, Davide

AU - Susta, Federica

AU - Orvietani, Pier Luigi

AU - Burchielli, Emanuela

AU - Ciardelli, Sara

AU - Sola, Rosaria

AU - Bruscoli, Stefano

AU - Cardinale, Antonella

AU - Pierini, Antonio

AU - Piersma, Sander R.

AU - Pasquino, Stefano

AU - Locatelli, Franco

AU - Ramarli, Dunia

AU - Velardi, Enrico

AU - Binaglia, Luciano

AU - Jimenez, Connie R.

AU - Holländer, Georg A.

AU - Velardi, Andrea

N1 - Funding Information: This work was supported by grants from the Italian Association for Cancer Research (AIRC), the Swiss National Science Foundation , the Leukemia and Lymphoma Society , and the Italian Ministry for Further Education. Vrije Universiteit Medical Center-Cancer Center Amsterdam is acknowledged for support of the mass spectrometry infrastructure. E.V. was supported by grants from the Amy Strelzer Manasevit Research Program and AIRC. Funding Information: The authors thank Temistocle Ragni (Ospedale Santa Maria della Misericordia, Perugia) and Adriano Carotti (Ospedale Bambino Gesù, Roma) for thymic tissue samples obtained during corrective cardiovascular surgery. The authors also thank Massimo F. Martelli, Professor Emeritus, University of Perugia, for critical review of the manuscript and helpful advice. This work was supported by grants from the Italian Association for Cancer Research (AIRC), the Swiss National Science Foundation, the Leukemia and Lymphoma Society, and the Italian Ministry for Further Education. Vrije Universiteit Medical Center-Cancer Center Amsterdam is acknowledged for support of the mass spectrometry infrastructure. E.V. was supported by grants from the Amy Strelzer Manasevit Research Program and AIRC. Contribution: L.R. designed and performed experiments and wrote paper; E.U. S.C. and R. S. performed murine transplant experiments and human cell cultures; F.S. and P.L.O. performed biochemical analyses; E.B. performed murine immune reconstitution analyses; D.C. designed and performed proteomics analyses and wrote paper; S.R.P. performed proteomics analyses; S.B. performed human RNA silencing experiments; D.R. contributed to human thymocyte culture experiments; S.P. as heart surgeon at the Ospedale Santa Maria della Misericordia, Perugia, provided human thymic tissue samples obtained during corrective cardiovascular surgery; L.B. conceived, designed, and supervised biochemical analyses and critically revised the manuscript; C.R.J. supervised proteomics analyses and critically revised the manuscript; G.A.H. designed experiments, provided constructive suggestions, and wrote paper; E.V. and A.C performed GSEA and revised the manuscript; A.P. and F.L. revised the manuscript; and A.V. conceived and supervised the project, designed experiments, and wrote the paper. Publisher Copyright: © 2022 The American Society of Hematology

PY - 2022/12/1

Y1 - 2022/12/1

N2 - Allogeneic hematopoietic transplantation is a powerful treatment for hematologic malignancies. Posttransplant immune incompetence exposes patients to disease relapse and infections. We previously demonstrated that donor alloreactive natural killer (NK) cells ablate recipient hematopoietic targets, including leukemia. Here, in murine models, we show that infusion of donor alloreactive NK cells triggers recipient dendritic cells (DCs) to synthesize β-2-microglobulin (B2M) that elicits the release of c-KIT ligand and interleukin-7 that greatly accelerate posttransplant immune reconstitution. An identical chain of events was reproduced by infusing supernatants of alloreactive NK/DC cocultures. Similarly, human alloreactive NK cells triggered human DCs to synthesize B2M that induced interleukin-7 production by thymic epithelial cells and thereby supported thymocyte cellularity in vitro. Chromatography fractionation of murine and human alloreactive NK/DC coculture supernatants identified a protein with molecular weight and isoelectric point of B2M, and mass spectrometry identified amino acid sequences specific of B2M. Anti-B2M antibody depletion of NK/DC coculture supernatants abrogated their immune-rebuilding effect. B2M knock-out mice were unable to undergo accelerated immune reconstitution, but infusion of (wild-type) NK/DC coculture supernatants restored their ability to undergo accelerated immune reconstitution. Similarly, silencing the B2M gene in human DCs, before coculture with alloreactive NK cells, prevented the increase in thymocyte cellularity in vitro. Finally, human recombinant B2M increased thymocyte cellularity in a thymic epithelial cells/thymocyte culture system. Our studies uncover a novel therapeutic principle for treating posttransplant immune incompetence and suggest that, upon its translation to the clinic, patients may benefit from adoptive transfer of large numbers of cytokine-activated, ex vivo–expanded donor alloreactive NK cells.

AB - Allogeneic hematopoietic transplantation is a powerful treatment for hematologic malignancies. Posttransplant immune incompetence exposes patients to disease relapse and infections. We previously demonstrated that donor alloreactive natural killer (NK) cells ablate recipient hematopoietic targets, including leukemia. Here, in murine models, we show that infusion of donor alloreactive NK cells triggers recipient dendritic cells (DCs) to synthesize β-2-microglobulin (B2M) that elicits the release of c-KIT ligand and interleukin-7 that greatly accelerate posttransplant immune reconstitution. An identical chain of events was reproduced by infusing supernatants of alloreactive NK/DC cocultures. Similarly, human alloreactive NK cells triggered human DCs to synthesize B2M that induced interleukin-7 production by thymic epithelial cells and thereby supported thymocyte cellularity in vitro. Chromatography fractionation of murine and human alloreactive NK/DC coculture supernatants identified a protein with molecular weight and isoelectric point of B2M, and mass spectrometry identified amino acid sequences specific of B2M. Anti-B2M antibody depletion of NK/DC coculture supernatants abrogated their immune-rebuilding effect. B2M knock-out mice were unable to undergo accelerated immune reconstitution, but infusion of (wild-type) NK/DC coculture supernatants restored their ability to undergo accelerated immune reconstitution. Similarly, silencing the B2M gene in human DCs, before coculture with alloreactive NK cells, prevented the increase in thymocyte cellularity in vitro. Finally, human recombinant B2M increased thymocyte cellularity in a thymic epithelial cells/thymocyte culture system. Our studies uncover a novel therapeutic principle for treating posttransplant immune incompetence and suggest that, upon its translation to the clinic, patients may benefit from adoptive transfer of large numbers of cytokine-activated, ex vivo–expanded donor alloreactive NK cells.

UR - http://www.scopus.com/inward/record.url?scp=85142447957&partnerID=8YFLogxK

U2 - https://doi.org/10.1182/blood.2021015297

DO - https://doi.org/10.1182/blood.2021015297

M3 - Article

C2 - 35984965

SN - 0006-4971

VL - 140

SP - 2323

EP - 2334

JO - Blood

JF - Blood

IS - 22

ER -

Donor natural killer cells trigger production of β-2-microglobulin to enhance post–bone marrow transplant immunity

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