Prussian blue technique is prone to yield false negative results in magnetoreception research.
Franziska CurdtKatrin HaaseLaura ZiegenbalgHelena GrebDominik HeyersMichael WinklhoferPublished in: Scientific reports (2022)
Perls's Prussian blue staining technique has been used in magnetoreception research to screen tissues for iron-rich structures as proxies for putative magnetoreceptor structures based on magnetic particles. However, seemingly promising structural candidates in the upper beak of birds detected with Prussian blue turned out to be either irreproducible or located in non-neuronal cells, which has spurred a controversy that has not been settled yet. Here we identify possible pitfalls in the previous works and apply the Prussian blue technique to tissues implicated in magnetic-particle-based magnetoreception, in an effort to reassess its suitability for staining single-domain magnetite, i.e., the proposed magnetic substrate for the interaction with the external magnetic field. In the upper beak of night-migratory songbirds, we found staining products in great numbers, but not remotely associated with fiber terminals of the traced ophthalmic branch of the trigeminal nerve. Surprisingly, staining products were absent from the lamina propria in the olfactory rosette of rainbow trout where candidate magnetoreceptor structures were identified with different techniques earlier. Critically, magnetosome chains in whole cells of magnetotactic bacteria remained unstained. The failure to label single-domain magnetite in positive control samples is a serious limitation of the technique and suggests that two most influential but antipodal studies conducted previously stood little chances of obtaining correct positive results under the assumption that magnetosome-like particles were present in the tissues. Nonetheless, the staining technique appears suitable to identify tissue contamination with iron-rich fine dust trapped in epithelia already in vivo.
Keyphrases
- induced apoptosis
- flow cytometry
- gene expression
- cell cycle arrest
- molecularly imprinted
- high resolution
- light emitting
- risk assessment
- endoplasmic reticulum stress
- cell death
- air pollution
- health risk
- signaling pathway
- high throughput
- spinal cord
- blood brain barrier
- cell proliferation
- oxidative stress
- amino acid
- mass spectrometry
- climate change
- single cell
- sleep quality
- peripheral nerve
- cataract surgery
- structural basis