Reprogramming of stroma-derived chemokine networks drives the loss of tissue organization in nodal B cell lymphoma

Here, we utilized single-cell and spatial mapping to interrogate the mechanisms directing tissue architecture in human lymph nodes (LN) and its disruption in nodal B cell lymphoma. Specifically, we mapped the cellular landscape of follicular lymphoma (FL; n=6) and diffuse large B cell lymphoma (DLBCL; n=8) alongside non-malignant reactive LNs (rLN; n=5) using single-cell RNA sequencing. Our data support the central role of LN-resident stromal cells in chemokine-driven lymphocyte zonation and reveal an inflammatory feedback loop fueled by tumor-reactive T cells, triggering stromal remodeling, progressive loss of homeostatic chemokine gradients and tissue organization from non-malignant to FL and DLBCL. Collectively, our results highlight the principles of LN organization and suggest how lymphoma-induced microenvironmental reprogramming drives loss of tissue organization.

Type: Other
Archiver: European Genome-Phenome Archive (EGA)

1 Dataset

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Dataset ID	Description	Technology	Samples
EGAD00001010044	The single cell data were generated based on four cartridges. The samples are multiplexed: 0. Sample Run Id Hash Gender Age 1. FL-6 Run1_C1 4 f 71 2. rLN-3 Run1_C1 6 f 72 3. DLBCL-4 Run1_C1 7 f 68 4. DLBCL-1 Run1_C1 8 m 66 5. FL-4 Run1_C1 9 m 41 6. DLBCL-3 Run1_C2 10 f 60 7. rLN-4 Run1_C2 11 f 58 8. rLN-5 Run1_C2 12 m 61 9. FL-1 Run2_C1 1 f 81 10. DLBCL-2 Run2_C1 2 m 80 11. rLN-2 Run2_C1 3 f 42 12. FL-5 Run2_C1 4 m 66 13. DLBCL-8 Run2_C1 5 m 64 14. DLBCL-6 Run2_C2 6 m 76 15. rLN-1 Run2_C2 7 m 39 16. FL-3 Run2_C2 8 f 76 17. DLBCL-5 Run2_C2 9 m 66 18. FL-2 Run2_C2 10 f 58 19. DLBCL-7 Run2_C2 11 f 71	NextSeq 500	4