Calcium oscillations in mesenchymal stem cells, a control on cell cycle progression to influence cell fate towards proliferation or differentiation?

  1. Leslie A. Vallet
  2. Marina Sánchez-Petidier
  3. Romain Fernandes
  4. Nataliia Naumova
  5. Caterina Merla
  6. Claudia Consales
  7. Giorgia Innamorati
  8. Franck M. André
  9. Lluis M. Mir
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Abstract

Background

Under regular culture conditions, mesenchymal stem cells (MSCs) exhibit cytosolic calcium concentration oscillations (Ca 2+ oscillations), that change, especially in frequency, after the differentiation of the MSCs. Ca 2+ oscillations are known to encode important information in frequency and amplitude, ultimately controlling many cellular processes such as proliferation and differentiation. Previous studies evidenced that decreasing the frequency of Ca 2 +  oscillations by physical means can facilitate osteodifferentiation of MSCs. Understanding the relationships between Ca 2 +  oscillations and MSCs proliferation or differentiation appears necessary in the attractive perspective of influencing cell fate by controlling Ca 2 +  signaling.

Methods

Using fluorescence microscopy we evaluated the evolution of Ca 2+ oscillations throughout the adipogenic and osteogenic differentiation processes. Then, using electrical stimulation with microsecond pulsed electric fields (µsPEFs), we manipulated the frequency of Ca 2+ oscillations in MSCs and measured its consequences on cell growth.

Results

Although the evolution of the Ca 2 +  oscillation frequencies differed between the adipogenic and osteogenic differentiation pathways in early stages of differentiation, we observed common features in the late stages: a progressive decrease in the Ca 2 +  oscillations frequencies, before their complete arrest as the differentiations reached their term. It has been reported that most cells undergoing differentiation experience a concomitant commitment to terminal differentiation and cell cycle exit, and prior to this, lengthened G1 phases, where the molecular competition between mitogenic and differentiating signals occurs. A relationship between the frequency of Ca 2+ oscillations and the progression of the cell cycle, through some Ca 2 +  sensitive molecular factors, could explain the evolutions of the frequencies of Ca 2+ oscillations observed during proliferation and differentiation. We hypothesized that increasing the frequency of Ca 2+ oscillations would promote proliferation, while decreasing it would promote differentiation under differentiating conditions. Using electrical stimulation with µsPEFs, we manipulated the frequency of Ca 2+ oscillations in MSCs and its increase actually promoted cell proliferation.

Conclusions

Manipulating the frequency of Ca 2 +  oscillations influences the cell fate of MSCs. We propose hypotheses on the actors that could link the Ca 2 +  oscillation frequencies with proliferation and differentiation processes, based on data available in the literature.

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  1. Version published to 10.1186/s13287-025-04454-8
  2. Version published to 10.21203/rs.3.rs-5723136/v1 on Research Square