Analysis of glycosaminoglycans of flow sorted cells: Incorporation of [35S]sulfate and [3H]glucosamine into glycosaminoglycans of B16-F10 cells during the cell cycle

Abstract

The incorporation of [³⁵S]sulfate and [³H] glucosamine into cetyl pyridinium chloride (CPC) precipitable glycosaminoglycans was determined in B16-F10 cultured cells sorted with respect to DNA content. Incorporation into surface material was measured indirectly as the difference between the radio-activity of control and trypsin treated cells. Approximately 80% of the total cellular [³⁵S] sulfate labeled CPC precipitable material, but only 5% of that labeled by [³H]glucosamine, was removed by this mild trypsin treatment. Incorporation of [³⁵S]sulfate into the trypsin removable surface material increased progressively from G₁ to S to G₂ + M in both long-term (48 hours) and shortterm (1 hour) labeled cells, while the ratio of surface to total incorporated [³⁵S]sulfate remained relatively constant. Incorporation of [³⁵S]sulfate into total cellular glycosaminoglycans in long- and short-term labeled cells increased as cells progressed from G₁ to S to G₂ + M; the incorporation of [³H]glucosamine into CPC precipitable material also increased progressively from G₁ to S to G₂ + M in long-term labeled cells but was greater during S phase relative to G₁ or G₂ + M in short-term labeled cells. The degree of sulfation of glycosaminoglycans as represented by the ratio of [³⁵S]sulfate to [³H]glucosamine of double labeled cells was relatively constant in long-term labeled cells but was increased during the G₁ and G₂ + M phases of short-term labeled cells. Comparison of the degree of sulfation of short-term with long-term labeled cells suggests that highly sulfated glycosaminoglycans may be turned over more rapidly during G₁ and G₂ + M phases of the cell cycle.