Paraffin embedding contributes to RNA aggregation, reduced RNA yield, and low RNA quality.

The RNA isolated from FFPE tissues is of poor quality and quantity. Other studies have indicated that formaldehyde fixation or the duration of storage of tissue blocks accounted for RNA damage. Herein we report a third source of harm to RNA: embedding in warm paraffin. RNA bound to oligo(dT)-conjugated magnetic beads (an mRNA model) and total cellular RNA pellets were passed through formalin, graded ethanols, xylene, paraffin, and a formaldehyde demodification step. The mRNA model yielded at least 1550 bp amplicons at RT-PCR at each step of processing except paraffin, which yielded no more than 750 bp amplicons regardless of paraffin formulation or transition solvent. Quantitative RT-PCR on paraffinized RNA suggested a 1400-fold or more decrease in amplifiable RNA when compared with control. Compared with earlier processing steps, formalin-fixed paraffinized total cellular RNA produced only high-molecular-weight RNA and insoluble aggregates. These species were reproduced by heating RNA in hydrocarbon solvent at 60°C for 1 hour. Quantitative RT-PCR on paraffinized RNA suggested an at least 10- to 160-fold decrease in amplifiable RNA compared to controls. The data implicate paraffin embedding as primarily responsible for the high-molecular-weight RNA aggregates, reduced yields of RNA, and poor quality of RNA isolated from these chemical models of FFPE tissues.