Cell volume and shape oscillations in rat type‐II somatotrophs at hypotonic conditions

Abstract

The size and shape of growth hormone (GH)‐producing rat type‐II somatotrophs was studied during osmotic manipulation. When somatotrophs were exposed to large osmotic stress (200 and 225 mOsm), the peak projected cell area (PCA) was 132.9% ± 12.6% and 116.8% ± 2.8% (P < 0.01) and triggered a regulatory volume decrease (RVD) to avoid lysis. At lower osmotic stress (250 mOsm), the rate of swelling was slower, and the volume reached a steady state at 109.4% ± 2.4% (P < 0.05) and was without RVD. At 275 and 287 mOsm, the swelling was delayed [PCA peak at 3–4 min; 105.8% ± 1.5% (P < 0.05) and 104.2% ± 1.7%] and then showed repeated synchronized cycles of swelling and shrinkage (P < 0.05). The data suggest that somatotrophs may have more than one mechanism for volume regulation. One mechanism is for large swelling (classic RVD response), whereas the other represents more physiological mechanisms for regulating cell volume within a more limited geometry range. For low osmotic stress (250–287 mOsm), the somatotrophs became less spherical during swelling and, thus, were without membrane dilation. Therefore, this type of volume regulation must work independently from membrane stress. Related volume regulation mechanisms may underlie the previously observed volume fluctuations in somatotrophs seen during secretory stimulation with GH‐releasing hormone.