The role of glucagon- and somatostatin-secreting cells in the regulation of insulin release and beta-cell function in heterotypic pseudoislets

## Abstract Cell volume regulation is a basic homeostatic mechanism transcendental for the normal physiology and function of cells. It is mediated principally by the activation of osmolyte transport pathways that result in net changes in solute concentration that counteract cell volume challenges i

The homeostatic control of beta-cell mass in normal and pathological conditions is based on the balance of proliferation, differentiation, and death of the insulin-secreting cells. A considerable body of evidence, accumulated during the last decade, has emphasized the significance of the disregulati

## Abstract Oxygen (O~2~) is a substrate for energy production in the cell and is a rapid regulator of cellular metabolism. Recent studies have also implicated O~2~ and its signal transduction pathways in controlling cell proliferation, fate, and morphogenesis during the development of many tissues

## Abstract Release of epinephrine from isolated adrenergic secretory veiscles from the adrenal medulla (chromaffin granules) was found to be inhibited by a number of anion transport blocking agents, including SITS, probenecid, pyridoxal phosphate, and Na‐isethionate. High concentrations of permean

## Abstract The insulin‐like growth factor‐I receptor (IGF‐IR) is a ubiquitous multifunctional tyrosine kinase that has an important role in normal cell growth and development. However, abnormal stimulation of IGF‐IR signaling has been implicated in the development of different types of tumors. The