The effects of tissue fixation on sequencing and transcript abundance of nucleic acids from microdissected liver samples of smallmouth bass (Micropterus dolomieu)

There is an increasing emphasis on effects-based monitoring to document responses associated with exposure to complex mixtures of chemicals, climate change, pathogens, parasites and other environmental stressors in fish populations. For decades aquatic monitoring programs have included the collectio...

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Bibliographic Details
Published in:PloS one 2020-08, Vol.15 (8), p.e0236104
Main Authors: Walsh, Heather L, Sperry, Adam J, Blazer, Vicki S
Format: Article
Language:English
Subjects:
Acids
Alcohol
Animal specimens
Animal tissues
Aquatic populations
Bass
Biology and Life Sciences
Chemical contaminants
Climate change
Collection
Crosslinking
Deoxyribonucleic acid
Distribution
DNA
Downstream effects
Economic importance
Endocrine disruptors
Engineering and Technology
Environmental changes
Environmental monitoring
Environmental stress
Ethanol
Exposure
Fish
Fish populations
Fixation
Fixatives
Formaldehyde
Gene expression
Genetic aspects
Geology
Histopathology
Laboratories
Lasers
Liver
Medical research
Micropterus dolomieu
Monitoring
Nucleic acids
Optimization
Paraffin
Paraffins
Parasites
Pathogens
Physical Sciences
Physiological aspects
Populations
Research and analysis methods
Ribonucleic acid
RNA
Smallmouth bass
Technology
Technology assessment
Tissues
Tissues (Anatomy)
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Summary:There is an increasing emphasis on effects-based monitoring to document responses associated with exposure to complex mixtures of chemicals, climate change, pathogens, parasites and other environmental stressors in fish populations. For decades aquatic monitoring programs have included the collection of tissues preserved for microscopic pathology. Consequently, formalin-fixed, paraffin-embedded (FFPE) tissue can be an important reservoir of nucleic acids as technologies emerge that utilize molecular endpoints. Despite the cross-linking effects of formalin, its impact on nucleic acid quality and concentration, amplification, and sequencing are not well described. While fresh-frozen tissue is optimal for working with nucleic acids, FFPE samples have been shown to be conducive for molecular studies. Laser capture microdissection (LCM) is one technology which allows for collection of specific regions or cell populations from fresh or preserved specimens with pathological alterations, pathogens, or parasites. In this study, smallmouth bass (Micropterus dolomieu) liver was preserved in three different fixatives, including 10% neutral buffered formalin (NBF), Z-Fix® (ZF), and PAXgene® (PG) for four time periods (24 hr, 48 hr, seven days, and 14 days). Controls consisted of pieces of liver preserved in RNALater® or 95% ethanol. Smallmouth bass were chosen as they are an economically important sportfish and have been utilized as indicators of exposure to endocrine disruptors and other environmental stressors. Small liver sections were cut out with laser microdissection and DNA and RNA were purified and analyzed for nucleic acid concentration and quality. Sanger sequencing and the NanoString nCounter® technology were used to assess the suitability of these samples in downstream molecular techniques. The results revealed that of the formalin fixatives, NBF samples fixed for 24 and 48 hr were superior to ZF samples for both Sanger sequencing and the Nanostring nCounter®. The non-formalin PAXgene® samples were equally successful and they showed greater stability in nucleic acid quality and concentration over longer fixation times. This study demonstrated that small quantities of preserved tissue from smallmouth bass can be utilized in downstream molecular techniques; however, future studies will need to optimize the methods presented here for different tissue types, fish species, and pathological conditions.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0236104