Three‐dimensional spatial mapping of the human hematopoietic microenvironment in healthy and diseased bone marrow

Author:

Bräunig Sandro1ORCID,Karmhag Isak1,Li Hongzhe1,Enoksson Jens2,Hultquist Anne2,Scheding Stefan13

Affiliation:

1. Division of Molecular Hematology and Stem Cell Center Lund University Lund Sweden

2. Department of Pathology, Skane University Hospital Lund University Lund Sweden

3. Department of Hematology Skane University Hospital Lund Sweden

Abstract

AbstractThe bone marrow hematopoietic microenvironment (HME) plays a pivotal role in regulating normal and diseased hematopoiesis. However, the spatial organization of the human HME has not been thoroughly investigated yet. Therefore, we developed a three‐dimensional (3D) immunofluorescence model to analyze changes in the cellular architecture in control and diseased bone marrows (BMs). BM biopsies from patients with myeloproliferative neoplasms (MPNs) were stained sequentially for CD31, CD34, CD45, and CD271 with repetitive bleaching steps to realize five color images with DAPI as a nuclear stain. Hematopoietically normal age‐matched BM biopsies served as controls. Twelve subsequent slides per sample were stacked to create three‐dimensional bone marrow reconstructions with the imaging program Arivis Visions 4D. Iso‐surfaces for niche cells and structures were created and exported as mesh objects for spatial distribution analysis in the 3D creation suite Blender. We recapitulated the bone marrow architecture using this approach and produced comprehensive 3D models of endosteal and perivascular BM niches. MPN bone marrows displayed apparent differences compared to the controls, especially concerning CD271 staining density, megakaryocyte (MK) morphology, and distribution. Furthermore, measurements of the spatial relationships of MKs and hematopoietic stem and progenitor cells with vessels and bone structures in their corresponding niche environments revealed the most pronounced differences in the vascular nice in polycythemia vera. Taken together, using a repetitive staining and bleaching approach allowed us to establish a 5‐color analysis of human BM biopsies, which is difficult to achieve with conventional staining approaches. Based on this, we generated 3D BM models which recapitulated key pathological features and, importantly, allowed us to define the spatial relationships between different bone marrow cell types. We, therefore, believe that our method can provide new and valuable insights into bone marrow cellular interaction research.

Funder

Swedish Cancer Foundation

Barncancerfonden

Publisher

Wiley

Subject

Cell Biology,Histology,Pathology and Forensic Medicine

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