Methods to Enable Spatial Transcriptomics of Bone Tissues

Summary

Here, we describe a method that allows for the decalcification of freshly obtained bone tissues and the preservation of high-quality RNA. A method is also illustrated for sectioning Formalin Fixed Paraffin Embedded (FFPE) samples of non-demineralized bones to obtain good quality results if fresh tissues are not available or cannot be collected.

Abstract

Understanding the relationship between the cells and their location within each tissue is critical to uncover the biological processes associated with normal development and disease pathology. Spatial transcriptomics is a powerful method that enables the analysis of the whole transcriptome within tissue samples, thus providing information about the cellular gene expression and the histological context in which the cells reside. While this method has been extensively utilized for many soft tissues, its application for the analyses of hard tissues such as bone has been challenging. The major challenge resides in the inability to preserve good quality RNA and tissue morphology while processing the hard tissue samples for sectioning. Therefore, a method is described here to process freshly obtained bone tissue samples to effectively generate spatial transcriptomics data. The method allows for the decalcification of the samples, granting successful tissue sections with preserved morphological details while avoiding RNA degradation. In addition, detailed guidelines are provided for samples that were previously paraffin-embedded, without demineralization, such as samples collected from tissue banks. Using these guidelines, high-quality spatial transcriptomics data generated from tissue bank samples of primary tumor and lung metastasis of bone osteosarcoma are shown.

Introduction

Bone is a specialized connective tissue comprised mainly of fibers of collagen type 1 and inorganic salts¹. As a result, bone is incredibly strong and stiff while being, at the same time, light and trauma-resistant. The great strength of bone derives from its mineral content. In fact, for any given increase in the percentage of mineral content, stiffness increases by five-fold². Consequently, investigators face significant problems when they analyze, by means of histological sectioning, the biology of a bone specimen.

Undecalcified bone histology is feasible and sometimes required, depending o....

Protocol

All animal procedures described below were approved in compliance with the Guide for the Care and Use of Laboratory Animals at the University of Pittsburgh School of Dental Medicine.

1. Method to prepare FFPE blocks of bone tissue samples that require demineralization

1. Preparation of reagents and materials
   1. Prepare EDTA 20% pH 8.0. For 1 L, dissolve 200 g of EDTA in 800 mL of ultrapure water, adjust pH to 8.0 with sodium hydroxide 10 N and finally br.......

Discussion

Here, a detailed method is provided to prepare FFPE blocks of decalcified bones and preserve RNA integrity for sequencing (i.e., next-generation sequencing (NGS)) or for other RNA-related techniques (i.e., in situ hybridization, quantitative reverse transcription polymerase chain reaction (qRT-PCR), etc.).

The method utilizes EDTA to decalcify bone tissue samples; the EDTA incubation allows for slow but fine demineralization of the samples, thus preserving the histological features of.......

Materials

Name	Company	Catalog Number	Comments
Advanced orbital shaker	VWR	76683-470	Use to keep tissues under agitation during incubation as reported in the method instructions.
Camel Hair Brushes	Ted Pella	11859	Use to handle FFPE sections as reported in the guidelines.
Dual Index Kit TS Set A 96 rxns	10X Genomics	PN-1000251	Use to perform spatial transcriptomics.
Ethanol 200 Proof	Decon Labs Inc	2701	Use to perform tissue dehydration as reported in the method instructions.
Ethylenediaminetetraacetic Acid, Disodium Salt Dihydrate (EDTA)	Thermo Fisher Scientific	S312-500	Use to prepare EDTA 20% pH 8.0.
Fisherbrand Curved Medium Point General Purpose Forceps	Fisher Scientific	16-100-110	Use to handle FFPE sections as reported in the guidelines.
Fisherbrand Fine Precision Probe	Fisher Scientific	12-000-153	Use to handle FFPE sections as reported in the guidelines.
Fisherbrand Superfrost Plus Microscope Slides	Fisher Scientific	12-550-15	Use to attach sectioned scrolls as reported in the guidelines.
High profile diamond microtome blades	CL Sturkey	D554DD	Use to section FFPE blocks as reported in the guidelines.
Novaseq 150PE	Novogene	N/A	Sequencer.
Paraformaldehyde (PFA) 32% Aqueous Solution EM Grade	Electron Microscopy Sciences	15714-S	Dilute to final concentration of 4% with 1x PBS  to perform tissue fixation.
Phosphate buffered saline (PBS)	Thermo Fisher Scientific	10010-049	Ready to use. Use to dilute PFA and to perform washes as reported in the method instructions.
Premiere Tissue Floating Bath	Fisher Scientific	A84600061	Use to remove wrinkles from FFPE sections as reported in the guidelines.
RNase AWAY Surface Decontaminant	Thermo Fisher Scientific	7002	Use to clean all surfaces as reported in the method instructions.
RNeasy DSP FFPE Kit	Qiagen	73604	Use to isolate RNA from FFPE sections once they have been generated as reported in the guidelines.
Semi-Automated Rotary Microtome	Leica Biosystems	RM2245	Use to section FFPE blocks as reported in the guidelines.
Sodium hydroxide	Millipore Sigma	S8045-500	Prepare 10 N solution by slowly dissolving 400 g in 1 liter of Milli-Q water.
Space Ranger	10X Genomics	2.0.1	Use to process sequencing data output .
Surgipath Paraplast	Leica Biosystems	39601006	Use to perform tissue infliltration and embedding as reported in the method instructions.
Visium Accessory Kit	10X Genomics	PN-1000194	Use to perform spatial transcriptomic experiments.
Visium Human Transcriptome Probe Kit Small	10X Genomics	PN-1000363	Use to perform spatial transcriptomic experiments.
Visium Spatial Gene Expression Slide Kit 4 rxns	10X Genomics	PN-1000188	Use to place the sections if performing spatial transcriptomic experiments.
Xylene	Leica Biosystems	3803665	Use to perform tissue clearing as reported in the method instructions.