Abstract
Multivalent cations were tested for their ability to replace the Ca2+ requirements of aggregation factor (AF) complex in activity, stability, and integrity assays. The ability of each cation to replace the Ca2+ required for the cell aggregation-enhancing activity of AF was examined by replacing the usual 10 mM Ca2+ with the test cation at various concentrations in the serial dilution assay of the AF. The other alkaline earth cations, Mg2+, Sr2+, and Ba2+, could not replace Ca2+; two transition elements, Mn2+ and Cd2+, partially replaced calcium. All 15 of the available lanthanides (including La3+ and Y3+) produced normal activity but only at 10-400-fold lower cation concentrations than Ca2+. An AF preparation is stable and remains active for months in 1 mM Ca2+ but decays rapidly when Ca2+ is lowered. Sr2+ and Ba2+ at 20 mM but not at 1 mM could replace 1 mM Ca2+ and give long term stability. AF was not stable in the presence of Mg2+, even at 100 mM. High Mn2+ concentrations did not stabilize AF even though AF was partially active in Mn2+. Cd2+ gave full stability at 75 mM and La3+ at about 0.1 mM. When Ca2+ is chelated, the macromolecular subunits of the AF slowly dissociate. Permeation chromatography and analytical ultracentrifugation showed that the cations that stabilized activity maintained the integrity of AF complex while those that failed to stabilize activity allowed the complex to dissociate into subunits, indicating that these two Ca2+ requirements are related. The cation specificities for activity and for stability-integrity are different indicating that these are separate Ca2+-dependent functions.
Highlights
Cell aggregation, preparations of AF must have more than 1 mM Ca2+ in order to remain stable acntdive over a period of months, and the integrity of the AF complex requires Ca2+ since the complex dissociates into subunits when Ca2+chelators are in excess
Ca2+binding siteof porcine trypsin interactws ith MnZ+C, d", Numerous classical and recent studies indicate that Ca2+ Y3+, and lanthanides but not Sr2+ or Ba2+ (Epstein et al, ionsplay essential roles in cell-cell interactionsinmany 1974)
Galtsoff (1925) showed that Ca2+ions were important forreaggregation of dissociated sponge cells,and we and others have found thCaat2+ ionsare involved at several levels in the activity and structureof the most tightly
Summary
Effect of ionic strength and p H on the ea2+requirement of the AF activity assay. AF activity was assayed with serial 2-fold dilutions of 16 units/ml in the buffers listed at Ca2+concentrations (millimolar) of: no added Ca", 0.10, 0.25, 0.50, 1, 5, 10, 20, or 25; 50, 75, and 100 (340 in high ionic strength buffer only). 100%activity was produced if the last visually enhanced aggregation occurred in the 1 unit/ml well as determined by 20 mM Ca2+in MBL-SW-I. Activityand stability of AFwere assayed as described in the legends of Figs. 2 and 3, and integrity was assayed as described in the legends of Figs. 4 and 5.100%corresponds to Ca2+control; see "Experimedtal Procedures" for details Activityand stability of AFwere assayed as described in the legends of Figs. 2 and 3, and integrity was assayed as described in the legends of Figs. 4 and 5.100%corresponds to Ca2+control; see "Experimedtal Procedures" for details
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