A single-cell transcriptomic map of the murine and human multiple myeloma immune microenvironment across disease stages

Emma Verheye; Daliya Kancheva; Hatice Satilmis; Niels Vandewalle; Rong Fan; Pauline Bardet; Emile Clappaert; Kevin Verstaen; Ann De Becker; Karin Vanderkerken; Kim De Veirman; Damya Laoui

doi:10.1186/s13045-024-01629-3

A single-cell transcriptomic map of the murine and human multiple myeloma immune microenvironment across disease stages

Emma Verheye, Daliya Kancheva, Hatice Satilmis, Niels Vandewalle, Rong Fan, Pauline Bardet, Emile Clappaert, Kevin Verstaen, Ann De Becker, Karin Vanderkerken, Kim De Veirman, Damya Laoui

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

5 Citations (Scopus)

6 Downloads (Pure)

Abstract

Abstract
Background: The long-term effectiveness of immunotherapies against Multiple Myeloma (MM) remains elusive, demonstrated by the inevitable relapse in patients. This underscores the urgent need for an in-depth analysis of the MM tumor-immune microenvironment (TME). Hereto, a representative immunocompetent MM mouse model can offer a valuable approach to study the dynamic changes within the MM-TME and to uncover potential resistance mechanisms hampering effective and durable therapeutic strategies in MM.

Methods: We generated a comprehensive single-cell RNA-sequencing atlas of the MM-TME in bone marrow and spleen encompassing different stages of disease, using the immunocompetent 5T33MM mouse model. Through comparative analysis, we correlated our murine dataset with the pathogenesis in MM patients by reanalyzing publicly available datasets of human bone marrow samples across various disease stages. Using flow cytometry, we validated the dynamic changes upon disease progression in the 5T33MM model. Furthermore, interesting target populations, as well as the immune-boosting anti-CD40 agonist (αCD40) therapy were tested ex vivo on murine and human primary samples and in vivo using the 5T33MM model.

Results: In this study, we identified the heterogenous and dynamic changes within the TME of murine and human MM. We found that the MM-TME was characterized by an increase in T cells, accompanied with an exhausted phenotype. Although neutrophils appeared to be rather innocuous at early disease stages, they acquired a pro-tumorigenic phenotype during MM progression. Moreover, conventional dendritic cells (cDCs) showed a less activated phenotype in MM, underscoring the potential of immune-boosting therapies such as αCD40 therapy. Importantly, we provided the first pre-clinical evaluation of αCD40 therapy and demonstrated successful induction of cDC- and T-cell activation, accompanied by a significant short-term anti-tumor response.

Conclusions: This resource provides a comprehensive and detailed immune atlas of the evolution in human and murine MM disease progression. Our findings can contribute to immune-based patient stratification and facilitate the development of novel and durable (immune) therapeutic strategies in MM.

Keywords: 5T33MM immune microenvironment; Anti-CD40 agonist therapy; Human-mouse comparison; Multiple myeloma progression; Single-cell RNA-sequencing.

Original language	English
Article number	107
Number of pages	22
Journal	Journal of Hematology & Oncology
Volume	17
Issue number	107
DOIs	https://doi.org/10.1186/s13045-024-01629-3
Publication status	Published - 7 Nov 2024

Bibliographical note

Funding Information:
E.V was supported by Prijs Kankeronderzoek \u2013 Oncologisch Centrum Vrije Universiteit Brussel, Emmanuel van der Schueren grant of Kom op tegen Kanker (KOTK_VUB/2022/13033) and Koning Boudewijnstichting. N.V. is supported by a predoctoral grant from FWO Vlaanderen (FWOSB110). P.M.R.B. is supported by a predoctoral grant from FWO Vlaanderen (1154722N). K.D.V is supported by grants from FWO, Kom op tegen Kanker and Vrije Universiteit Brussel spearhead research programs. D.L. is supported by grants from FWO, Kom op tegen Kanker, Stichting tegen kanker, VIB and Vrije Universiteit Brussel.

Publisher Copyright:
© The Author(s) 2024.

Keywords

Multiple myeloma progression
5T33MM immune microenvironment
Single-cell RNA-sequencing
Human-mouse comparison
Anti-CD40 agonist therapy

Access to Document

10.1186/s13045-024-01629-3Licence: CC BY-NC-ND

118287641Final published version, 9.62 MBLicence: CC BY-NC-ND

Handle.net

Persistent link

Cite this

Verheye, E., Kancheva, D., Satilmis, H., Vandewalle, N., Fan, R., Bardet, P., Clappaert, E., Verstaen, K., De Becker, A., Vanderkerken, K., De Veirman, K., & Laoui, D. (2024). A single-cell transcriptomic map of the murine and human multiple myeloma immune microenvironment across disease stages. Journal of Hematology & Oncology, 17(107), Article 107. https://doi.org/10.1186/s13045-024-01629-3

@article{6c77a5d4b776433c93c8e02316991e6f,

title = "A single-cell transcriptomic map of the murine and human multiple myeloma immune microenvironment across disease stages",

abstract = "AbstractBackground: The long-term effectiveness of immunotherapies against Multiple Myeloma (MM) remains elusive, demonstrated by the inevitable relapse in patients. This underscores the urgent need for an in-depth analysis of the MM tumor-immune microenvironment (TME). Hereto, a representative immunocompetent MM mouse model can offer a valuable approach to study the dynamic changes within the MM-TME and to uncover potential resistance mechanisms hampering effective and durable therapeutic strategies in MM.Methods: We generated a comprehensive single-cell RNA-sequencing atlas of the MM-TME in bone marrow and spleen encompassing different stages of disease, using the immunocompetent 5T33MM mouse model. Through comparative analysis, we correlated our murine dataset with the pathogenesis in MM patients by reanalyzing publicly available datasets of human bone marrow samples across various disease stages. Using flow cytometry, we validated the dynamic changes upon disease progression in the 5T33MM model. Furthermore, interesting target populations, as well as the immune-boosting anti-CD40 agonist (αCD40) therapy were tested ex vivo on murine and human primary samples and in vivo using the 5T33MM model.Results: In this study, we identified the heterogenous and dynamic changes within the TME of murine and human MM. We found that the MM-TME was characterized by an increase in T cells, accompanied with an exhausted phenotype. Although neutrophils appeared to be rather innocuous at early disease stages, they acquired a pro-tumorigenic phenotype during MM progression. Moreover, conventional dendritic cells (cDCs) showed a less activated phenotype in MM, underscoring the potential of immune-boosting therapies such as αCD40 therapy. Importantly, we provided the first pre-clinical evaluation of αCD40 therapy and demonstrated successful induction of cDC- and T-cell activation, accompanied by a significant short-term anti-tumor response.Conclusions: This resource provides a comprehensive and detailed immune atlas of the evolution in human and murine MM disease progression. Our findings can contribute to immune-based patient stratification and facilitate the development of novel and durable (immune) therapeutic strategies in MM.Keywords: 5T33MM immune microenvironment; Anti-CD40 agonist therapy; Human-mouse comparison; Multiple myeloma progression; Single-cell RNA-sequencing.",

keywords = "Multiple myeloma progression, 5T33MM immune microenvironment, Single-cell RNA-sequencing, Human-mouse comparison, Anti-CD40 agonist therapy",

author = "Emma Verheye and Daliya Kancheva and Hatice Satilmis and Niels Vandewalle and Rong Fan and Pauline Bardet and Emile Clappaert and Kevin Verstaen and {De Becker}, Ann and Karin Vanderkerken and {De Veirman}, Kim and Damya Laoui",

note = "Funding Information: E.V was supported by Prijs Kankeronderzoek \u2013 Oncologisch Centrum Vrije Universiteit Brussel, Emmanuel van der Schueren grant of Kom op tegen Kanker (KOTK_VUB/2022/13033) and Koning Boudewijnstichting. N.V. is supported by a predoctoral grant from FWO Vlaanderen (FWOSB110). P.M.R.B. is supported by a predoctoral grant from FWO Vlaanderen (1154722N). K.D.V is supported by grants from FWO, Kom op tegen Kanker and Vrije Universiteit Brussel spearhead research programs. D.L. is supported by grants from FWO, Kom op tegen Kanker, Stichting tegen kanker, VIB and Vrije Universiteit Brussel. Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = nov,

day = "7",

doi = "10.1186/s13045-024-01629-3",

language = "English",

volume = "17",

journal = "Journal of Hematology & Oncology",

issn = "1756-8722",

publisher = "BioMed Central",

number = "107",

}

Verheye, E, Kancheva, D , Satilmis, H, Vandewalle, N, Fan, R, Bardet, P, Clappaert, E, Verstaen, K, De Becker, A , Vanderkerken, K , De Veirman, K & Laoui, D 2024, 'A single-cell transcriptomic map of the murine and human multiple myeloma immune microenvironment across disease stages', Journal of Hematology & Oncology, vol. 17, no. 107, 107. https://doi.org/10.1186/s13045-024-01629-3

TY - JOUR

T1 - A single-cell transcriptomic map of the murine and human multiple myeloma immune microenvironment across disease stages

AU - Verheye, Emma

AU - Kancheva, Daliya

AU - Satilmis, Hatice

AU - Vandewalle, Niels

AU - Fan, Rong

AU - Bardet, Pauline

AU - Clappaert, Emile

AU - Verstaen, Kevin

AU - De Becker, Ann

AU - Vanderkerken, Karin

AU - De Veirman, Kim

AU - Laoui, Damya

N1 - Funding Information: E.V was supported by Prijs Kankeronderzoek \u2013 Oncologisch Centrum Vrije Universiteit Brussel, Emmanuel van der Schueren grant of Kom op tegen Kanker (KOTK_VUB/2022/13033) and Koning Boudewijnstichting. N.V. is supported by a predoctoral grant from FWO Vlaanderen (FWOSB110). P.M.R.B. is supported by a predoctoral grant from FWO Vlaanderen (1154722N). K.D.V is supported by grants from FWO, Kom op tegen Kanker and Vrije Universiteit Brussel spearhead research programs. D.L. is supported by grants from FWO, Kom op tegen Kanker, Stichting tegen kanker, VIB and Vrije Universiteit Brussel. Publisher Copyright: © The Author(s) 2024.

PY - 2024/11/7

Y1 - 2024/11/7

N2 - AbstractBackground: The long-term effectiveness of immunotherapies against Multiple Myeloma (MM) remains elusive, demonstrated by the inevitable relapse in patients. This underscores the urgent need for an in-depth analysis of the MM tumor-immune microenvironment (TME). Hereto, a representative immunocompetent MM mouse model can offer a valuable approach to study the dynamic changes within the MM-TME and to uncover potential resistance mechanisms hampering effective and durable therapeutic strategies in MM.Methods: We generated a comprehensive single-cell RNA-sequencing atlas of the MM-TME in bone marrow and spleen encompassing different stages of disease, using the immunocompetent 5T33MM mouse model. Through comparative analysis, we correlated our murine dataset with the pathogenesis in MM patients by reanalyzing publicly available datasets of human bone marrow samples across various disease stages. Using flow cytometry, we validated the dynamic changes upon disease progression in the 5T33MM model. Furthermore, interesting target populations, as well as the immune-boosting anti-CD40 agonist (αCD40) therapy were tested ex vivo on murine and human primary samples and in vivo using the 5T33MM model.Results: In this study, we identified the heterogenous and dynamic changes within the TME of murine and human MM. We found that the MM-TME was characterized by an increase in T cells, accompanied with an exhausted phenotype. Although neutrophils appeared to be rather innocuous at early disease stages, they acquired a pro-tumorigenic phenotype during MM progression. Moreover, conventional dendritic cells (cDCs) showed a less activated phenotype in MM, underscoring the potential of immune-boosting therapies such as αCD40 therapy. Importantly, we provided the first pre-clinical evaluation of αCD40 therapy and demonstrated successful induction of cDC- and T-cell activation, accompanied by a significant short-term anti-tumor response.Conclusions: This resource provides a comprehensive and detailed immune atlas of the evolution in human and murine MM disease progression. Our findings can contribute to immune-based patient stratification and facilitate the development of novel and durable (immune) therapeutic strategies in MM.Keywords: 5T33MM immune microenvironment; Anti-CD40 agonist therapy; Human-mouse comparison; Multiple myeloma progression; Single-cell RNA-sequencing.

AB - AbstractBackground: The long-term effectiveness of immunotherapies against Multiple Myeloma (MM) remains elusive, demonstrated by the inevitable relapse in patients. This underscores the urgent need for an in-depth analysis of the MM tumor-immune microenvironment (TME). Hereto, a representative immunocompetent MM mouse model can offer a valuable approach to study the dynamic changes within the MM-TME and to uncover potential resistance mechanisms hampering effective and durable therapeutic strategies in MM.Methods: We generated a comprehensive single-cell RNA-sequencing atlas of the MM-TME in bone marrow and spleen encompassing different stages of disease, using the immunocompetent 5T33MM mouse model. Through comparative analysis, we correlated our murine dataset with the pathogenesis in MM patients by reanalyzing publicly available datasets of human bone marrow samples across various disease stages. Using flow cytometry, we validated the dynamic changes upon disease progression in the 5T33MM model. Furthermore, interesting target populations, as well as the immune-boosting anti-CD40 agonist (αCD40) therapy were tested ex vivo on murine and human primary samples and in vivo using the 5T33MM model.Results: In this study, we identified the heterogenous and dynamic changes within the TME of murine and human MM. We found that the MM-TME was characterized by an increase in T cells, accompanied with an exhausted phenotype. Although neutrophils appeared to be rather innocuous at early disease stages, they acquired a pro-tumorigenic phenotype during MM progression. Moreover, conventional dendritic cells (cDCs) showed a less activated phenotype in MM, underscoring the potential of immune-boosting therapies such as αCD40 therapy. Importantly, we provided the first pre-clinical evaluation of αCD40 therapy and demonstrated successful induction of cDC- and T-cell activation, accompanied by a significant short-term anti-tumor response.Conclusions: This resource provides a comprehensive and detailed immune atlas of the evolution in human and murine MM disease progression. Our findings can contribute to immune-based patient stratification and facilitate the development of novel and durable (immune) therapeutic strategies in MM.Keywords: 5T33MM immune microenvironment; Anti-CD40 agonist therapy; Human-mouse comparison; Multiple myeloma progression; Single-cell RNA-sequencing.

KW - Multiple myeloma progression

KW - 5T33MM immune microenvironment

KW - Single-cell RNA-sequencing

KW - Human-mouse comparison

KW - Anti-CD40 agonist therapy

UR - http://www.scopus.com/inward/record.url?scp=85208715557&partnerID=8YFLogxK

U2 - 10.1186/s13045-024-01629-3

DO - 10.1186/s13045-024-01629-3

M3 - Article

C2 - 39511632

SN - 1756-8722

VL - 17

JO - Journal of Hematology & Oncology

JF - Journal of Hematology & Oncology

IS - 107

M1 - 107

ER -

A single-cell transcriptomic map of the murine and human multiple myeloma immune microenvironment across disease stages

Abstract

Bibliographical note

Keywords

Access to Document

Handle.net

Other files and links

Fingerprint

SRP84: SRP-Onderzoekszwaartepunt: PACT: multi-omics Profiling of T cells to improve Adoptive Cell Therapy