A G1 sizer mechanism coordinates growth and division in the mouse epidermis
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Abstract
Summary Cell size homeostasis is often achieved by coupling cell cycle progression to cell growth. Studies of cell size homeostasis in single-celled bacteria and yeast have observed several distinct phenomena. Growth can be coupled to division through a range of mechanisms, including a ‘sizer’, wherein cells of varying birth size divide at similar final sizes [1–3], and an ‘adder’, wherein cells increase in size a fixed amount per cell cycle [4–6]. Importantly, intermediate control mechanisms are observed, and even the same organism can exhibit distinct control phenomena depending on growth conditions [2,7,8]. While studying unicellular organisms in laboratory conditions may give insight into their growth control in the wild, this is less apparent for studies of mammalian cells growing outside the organism. Sizer, adder, and intermediate mechanisms have been observed in vitro [9–12], but it is unclear how these diverse size homeostasis phenomena relate to mammalian cell proliferation in vivo . To address this gap, we analyzed time-lapse images of the mouse epidermis taken over one week during normal tissue turnover [13]. We quantified the 3D volume growth and cell cycle progression of single cells within the mouse skin. In dividing epidermal stem cells, we found that cell growth is coupled to division through a sizer mechanism operating largely in the G1 phase. Thus, while the majority of tissue culture studies to-date identified adder mechanisms, our analysis demonstrates that sizer mechanisms are important in vivo and highlights the need to determine their underlying molecular origin.
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