Serum-mediated regulation of amino acid transport in cultured chick embryo fibroblasts

## Abstract Changes in amino acid transport activity by system A (a Na^+^‐dependent agency with affinity for a discrete group of neutral amino acids) caused by the addition of serum to serum‐deprived cultured chick embryo fibroblasts have been evaluated by measurements of ^14^C‐labeled L‐proline an

## Abstract Enhanced amino acid transport is observed when quiescent cultures of chicken embryo fibroblasts are stimulated to proliferate by the addition of purified multiplication‐stimulating activity (MSA). This increase in amino acid transport is an early event occuring prior to the onset of DNA

## Abstract The rate at which chick embryo fibroblasts in primary or secondary culture transport glucose or 3‐O‐methyl glucose is strongly influenced by the presence of bicarbonate ion in the culture medium. Cells growing or maintained on glucose at physiologic concentration (5.5mM) have an 8 to 10

## Abstract Variations in pH, serum concentration and the availability of Zn^++^ in the medium markedly influence the initiation of DNA synthesis in cultured chick embryo cells. This report considers the interplay of these factors with one another and with other factors such as type of medium, cell

## Abstract In androgen‐responsive cells, activity of a sodium‐dependent transport system for neutral amino acids is shown to be density‐dependent, whereas activity of a sodium‐independent system is not. Transport of the nonmetabolizable amino acid, α‐aminoisobutyric acid (α‐aib) was largely sodium

## Abstract The mode of induction of sugar transport by serum‐stimulation of growth and hexose‐starvation in chick embryo fibroblasts (CEF) has been studied using metabolic inhibitors. We have concluded from these studies that the sugar transport increases induced by serum‐stimulation are regulated