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Toxic effects of cadmium on flatworm stem cell dynamics: a transcriptomic and ultrastructural elucidation of underlying mechanisms
Plusquin, M.; De Mulder, K.; Van Belleghem, F.; DeGheselle, O.; Pirotte, N.; Willems, M.; Cuypers, A.; Salvenmoser, W.; Ladurner, P.; Artois, T.; Smeets, K. (2016). Toxic effects of cadmium on flatworm stem cell dynamics: a transcriptomic and ultrastructural elucidation of underlying mechanisms. Environ. Toxicol. 31(10): 1217-1228. https://dx.doi.org/10.1002/tox.22129
In: Environmental Toxicology. John Wiley & Sons: New York, N.Y.. ISSN 1520-4081; e-ISSN 1522-7278, more
Peer reviewed article  

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Keywords
    Macrostomum lignano Ladurner, Schärer, Salvenmoser & Rieger, 2005 [WoRMS]
    Marine/Coastal
Author keywords
    toxicology; stem cell; Macrostomum lignano; cadmium; stress

Authors  Top 
  • Plusquin, M., more
  • De Mulder, K., more
  • Van Belleghem, F., more
  • DeGheselle, O.
  • Pirotte, N., more
  • Willems, M., more
  • Cuypers, A., more
  • Salvenmoser, W.
  • Ladurner, P.
  • Artois, T., more
  • Smeets, K., more

Abstract
    Stem cells or undifferentiated cells can cope more easily with external stresses. To evaluate the impact of toxic compounds on stem cell dynamics in vivo, in relation to other biological responses, we use the carcinogenic element cadmium and the regenerating model organism Macrostomum lignano. Through both BrdU and anti‐histone H3 immunostainings, cadmium‐induced effects were investigated at different stages of the stem cell cycle. A 24‐h exposure to 100 and 250 μM CdCl2 significantly decreased the number of stem cells (neoblasts) in mitosis, whereas the number of cells in the S phase remained unchanged. After this short‐term exposure, the ultrastructure of the neoblasts was minimally affected in contrast to the epidermal tissues. These results were supported by gene expression data: transcripts of cdc2 and pig3 were significantly upregulated during all treatments. Both genes are involved in the cell cycle progression and are transcribed in the gonadal region, where stem cells are highly represented. Based on a substantial increase in gene expression of heat shock proteins (HSP) and their high activity in the gonadal region, we hypothesize that these proteins are key players in the protection of stem cells against external stresses. Apart from the strong HSP induction, other protective processes including cell division, apoptosis and anti‐oxidative defence, were also activated. We, therefore, conclude that the protection of stem cells against external stressors may be based on the interplay between stem cell maintenance, i.e. repair and recovery through division, on one hand and apoptosis on the other hand.

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