Thyroid Stem Cells But Not Differentiated Thyrocytes Are Sensitive to Slightly Increased Concentrations of Heavy Metals.

Fiorenza Gianì,Riccardo Vigneri,Annarita Franco,Roberta Masto,Maria Antonietta Trovato,Giuseppe Pandini

doi:10.3389/fendo.2021.652675

Fiorenza Gianì, Riccardo Vigneri + Show 4 more

Open Access

https://doi.org/10.3389/fendo.2021.652675

Copy DOI

Abstract

Thyroid cancer incidence is markedly increased in volcanic areas where residents are biocontaminated by chronic lifelong exposure to slightly increased metals in the environment. Metals can influence the biology of living cells by a variety of mechanisms, depending not only on the dose and length of exposure but also on the type and stage of differentiation of target cells. We explored the effect of five heavy metals (Cu, Hg, Pd, W and Zn) at nanomolar concentrations (the biocontamination level in residents of the volcanic area in Sicily where thyroid cancer is increased) on stimulating the proliferation of undifferentiated (thyrospheres) and differentiated human thyroid cells. Thyrosphere proliferation was significantly increased after exposure to each individual metal and a greater stimulating effect was observed when a mixture of the examined metals was used. No effect was seen in differentiated thyrocytes. For all metals, the dose-response curve followed a biphasic pattern that is typical of hormesis. Thyrosphere growth concerned the size rather than number, except with the metal mixture. An altered morphology was also observed in metal-treated thyrospheres. Metal-induced proliferation was due to activation of the ERK1/2 pathway, as confirmed by growth inhibition when ERK1/2 signaling was blocked. These studies show that stem/precursor thyroid cells are sensitive to small increases in environmental metal concentrations that are harmless for differentiated thyrocytes.

Highlights

A dramatic worldwide increase in thyroid cancer has been observed in recent decades, despite the incidence of most other cancers having remained stable or only increased slightly during the same period [1].Indirect but strong evidence supports the possibility that this increase is “apparent” [2, 3], but thatMetals and Thyroid Stem/Precursor Cells a “true” increase in number and a change in thyroid cancer aggressiveness is occurring [4, 5]
Metals were investigated in a wide range of concentrations spanning 1,000-fold the lowest dose tested and always included the average metal concentration previously documented in the urine of residents of the volcanic area: Cu= 5.5, Zn= 217.0, W= 0.12, Hg= 0.21, Pd= 0.09 [14]
BrdU incorporation was significantly increased after exposure to each metal examined, with peak values being significantly higher than basal values: Cu +36.7% ± 6.9, p

Summary

Introduction

Metals and Thyroid Stem/Precursor Cells a “true” increase in number and a change in thyroid cancer aggressiveness is occurring [4, 5]. These considerations imply that environmental factors are promoting the initiation and progression of thyroid cancer: radiation, and dietary and atmospheric pollutants related to the industrialized way of life are the most likely factors. Metals are natural components of the Earth’s crust These inorganic elements can play an important role in human biology, both as essential nutrients and as potentially toxic compounds. Metals may have detrimental effects on a variety of cell functions, including growth, transformation and survival. In the last few decades, the industrialized lifestyle has involved a progressively greater use of metals and the consequent environmental pollution, raising some concerns for the potential toxic effects of human biocontamination due to chronic exposure to increased metals in the environment [6]

Methods

Results

Conclusion