Spatial and single cell mapping of castleman disease reveals key stromal cell types and cytokine pathways

David Smith; Anna Eichinger; Éanna Fennell; Zijun Y. Xu-Monette; Andrew Rech; Julia Wang; Eduardo Esteva; Arta Seyedian; Xiaoxu Yang; Mei Zhang; Dan Martinez; Kai Tan; Minjie Luo; Katherine J. Young; Paul G. Murray; Christopher Park; Boris Reizis; Vinodh Pillai

doi:10.1038/s41467-025-61214-1

Spatial and single cell mapping of castleman disease reveals key stromal cell types and cytokine pathways

David Smith
, Anna Eichinger
, Éanna Fennell
, Zijun Y. Xu-Monette
, Andrew Rech
, Julia Wang
, Eduardo Esteva
, Arta Seyedian
, Xiaoxu Yang
, Mei Zhang
, Dan Martinez
, Kai Tan
, Minjie Luo
, Katherine J. Young
, Paul G. Murray
, Christopher Park
, Boris Reizis
, Vinodh Pillai

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

Abstract

To determine the cellular and molecular basis of Castleman Disease (CD), we analyze the spatial proteome and transcriptome from a discovery (n = 9 cases) and validation (n = 13 cases) cohort of Unicentric CD, idiopathic Multicentric CD, HHV8-associated MCD, and reactive lymph nodes. CD shows increased stromal cells that form unique microenvironments. Interaction of activated follicular dendritic cell (FDC) cytoplasmic meshworks with mantle-zone B cells is associated with B-cell activation and differentiation. CXCL13+ FDCs, PDGFRA + T-zone reticular cells (TRC), and ACTA2-positive perivascular reticular cells (PRC) were the predominant source of increased VEGF expression and IL-6 signaling. MCD is characterized by increased TRC while UCD shows increased B-reticular cells (BRC). VEGF expression by FDCs is associated with peri-follicular neovascularization. FDC, TRC and PRC of CD activates JAK-STAT, TGFβ, and MAPK pathways via specific ligand-receptor interactions. Here, we show that stromal-cell activation and associated B cell activation and differentiation, neovascularization and stromal remodeling underlie CD.

Original language	English
Article number	6009
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-61214-1
Publication status	Published - Dec 2025

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Smith, D., Eichinger, A., Fennell, É., Xu-Monette, Z. Y., Rech, A., Wang, J., Esteva, E., Seyedian, A., Yang, X., Zhang, M., Martinez, D., Tan, K., Luo, M., Young, K. J., Murray, P. G., Park, C., Reizis, B., & Pillai, V. (2025). Spatial and single cell mapping of castleman disease reveals key stromal cell types and cytokine pathways. Nature Communications, 16(1), Article 6009. https://doi.org/10.1038/s41467-025-61214-1

@article{795c89932e87419ea2b557b3de46ba19,

title = "Spatial and single cell mapping of castleman disease reveals key stromal cell types and cytokine pathways",

abstract = "To determine the cellular and molecular basis of Castleman Disease (CD), we analyze the spatial proteome and transcriptome from a discovery (n = 9 cases) and validation (n = 13 cases) cohort of Unicentric CD, idiopathic Multicentric CD, HHV8-associated MCD, and reactive lymph nodes. CD shows increased stromal cells that form unique microenvironments. Interaction of activated follicular dendritic cell (FDC) cytoplasmic meshworks with mantle-zone B cells is associated with B-cell activation and differentiation. CXCL13+ FDCs, PDGFRA + T-zone reticular cells (TRC), and ACTA2-positive perivascular reticular cells (PRC) were the predominant source of increased VEGF expression and IL-6 signaling. MCD is characterized by increased TRC while UCD shows increased B-reticular cells (BRC). VEGF expression by FDCs is associated with peri-follicular neovascularization. FDC, TRC and PRC of CD activates JAK-STAT, TGFβ, and MAPK pathways via specific ligand-receptor interactions. Here, we show that stromal-cell activation and associated B cell activation and differentiation, neovascularization and stromal remodeling underlie CD.",

author = "David Smith and Anna Eichinger and {\'E}anna Fennell and Xu-Monette, \{Zijun Y.\} and Andrew Rech and Julia Wang and Eduardo Esteva and Arta Seyedian and Xiaoxu Yang and Mei Zhang and Dan Martinez and Kai Tan and Minjie Luo and Young, \{Katherine J.\} and Murray, \{Paul G.\} and Christopher Park and Boris Reizis and Vinodh Pillai",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41467-025-61214-1",

language = "English",

volume = "16",

journal = "Nature Communications",

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Smith, D, Eichinger, A, Fennell, É, Xu-Monette, ZY, Rech, A, Wang, J, Esteva, E, Seyedian, A, Yang, X, Zhang, M, Martinez, D, Tan, K, Luo, M, Young, KJ, Murray, PG, Park, C, Reizis, B & Pillai, V 2025, 'Spatial and single cell mapping of castleman disease reveals key stromal cell types and cytokine pathways', Nature Communications, vol. 16, no. 1, 6009. https://doi.org/10.1038/s41467-025-61214-1

TY - JOUR

T1 - Spatial and single cell mapping of castleman disease reveals key stromal cell types and cytokine pathways

AU - Smith, David

AU - Eichinger, Anna

AU - Fennell, Éanna

AU - Xu-Monette, Zijun Y.

AU - Rech, Andrew

AU - Wang, Julia

AU - Esteva, Eduardo

AU - Seyedian, Arta

AU - Yang, Xiaoxu

AU - Zhang, Mei

AU - Martinez, Dan

AU - Tan, Kai

AU - Luo, Minjie

AU - Young, Katherine J.

AU - Murray, Paul G.

AU - Park, Christopher

AU - Reizis, Boris

AU - Pillai, Vinodh

PY - 2025/12

Y1 - 2025/12

N2 - To determine the cellular and molecular basis of Castleman Disease (CD), we analyze the spatial proteome and transcriptome from a discovery (n = 9 cases) and validation (n = 13 cases) cohort of Unicentric CD, idiopathic Multicentric CD, HHV8-associated MCD, and reactive lymph nodes. CD shows increased stromal cells that form unique microenvironments. Interaction of activated follicular dendritic cell (FDC) cytoplasmic meshworks with mantle-zone B cells is associated with B-cell activation and differentiation. CXCL13+ FDCs, PDGFRA + T-zone reticular cells (TRC), and ACTA2-positive perivascular reticular cells (PRC) were the predominant source of increased VEGF expression and IL-6 signaling. MCD is characterized by increased TRC while UCD shows increased B-reticular cells (BRC). VEGF expression by FDCs is associated with peri-follicular neovascularization. FDC, TRC and PRC of CD activates JAK-STAT, TGFβ, and MAPK pathways via specific ligand-receptor interactions. Here, we show that stromal-cell activation and associated B cell activation and differentiation, neovascularization and stromal remodeling underlie CD.

AB - To determine the cellular and molecular basis of Castleman Disease (CD), we analyze the spatial proteome and transcriptome from a discovery (n = 9 cases) and validation (n = 13 cases) cohort of Unicentric CD, idiopathic Multicentric CD, HHV8-associated MCD, and reactive lymph nodes. CD shows increased stromal cells that form unique microenvironments. Interaction of activated follicular dendritic cell (FDC) cytoplasmic meshworks with mantle-zone B cells is associated with B-cell activation and differentiation. CXCL13+ FDCs, PDGFRA + T-zone reticular cells (TRC), and ACTA2-positive perivascular reticular cells (PRC) were the predominant source of increased VEGF expression and IL-6 signaling. MCD is characterized by increased TRC while UCD shows increased B-reticular cells (BRC). VEGF expression by FDCs is associated with peri-follicular neovascularization. FDC, TRC and PRC of CD activates JAK-STAT, TGFβ, and MAPK pathways via specific ligand-receptor interactions. Here, we show that stromal-cell activation and associated B cell activation and differentiation, neovascularization and stromal remodeling underlie CD.

UR - https://www.scopus.com/pages/publications/105009712137

U2 - 10.1038/s41467-025-61214-1

DO - 10.1038/s41467-025-61214-1

M3 - Article

C2 - 40593805

AN - SCOPUS:105009712137

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 6009

ER -

Spatial and single cell mapping of castleman disease reveals key stromal cell types and cytokine pathways

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