Commercial alginates consisting of variable homopolymeric regions of beta-D-mannuronic acid and alpha-L-guluronic acid, interspaced with regions of alternating blocks, are potent stimulators of macrophages and lymphocytes. Therefore, inflammatory reactions and fibrotic overgrowth of the beads result if Langerhans islets are encapsulated in raw alginate hydrogel beads (cross-linked with divalent cations). The result is random failure of the islets some time after transplantation. Analysis of raw alginates by using free flow electrophoresis demonstrated that commercial alginates contained at least 10-20 fractions (characterized by different electrophoretic mobilities) which showed mitogenic activity. These fractions could be quantitatively separated from the alginic acids by free flow electrophoresis on a preparative scale. The purified alginates cross-linked with Ca2+ ions exhibited no mitogenic reactions as proved by an in vitro assay. In addition, examination of purified Ba2+ alginate beads implanted intraperitoneally in rats or mice for three weeks showed no fibrotic overgrowth in contrast to implants made from unpurified alginate.
The zeta potential (which approximates the surface potential) of the acid resistant green alga Dunaliella acidophila (optimal growth at pH 1.0) and the salt resistant D. parva (grown at pH 7.6) were calculated from the electrophoretic mobility of cells as determined by means of free-flow electrophoresis. Dunaliella acidophila cells exhibit a positive zeta potential (-f 5 to +20mV) at acidic external pH values, whereas negative zeta potentials (-30mV) were measured at neutral pH values. Negative zeta potentials of the same order of magnitude were also measured for D. parva cells (pH 7.6). Low concentrations of La'"*' and AP"*" did not affect the positive zeta potential of D. acidophila at acidic pH values, whereas higher concentrations caused a shift to more positive potentials. However, at neutral pH these cations caused a significant decrease of the negative zeta potential. The impermeant polycation poly-L-lysine acted in a sitnilar manner to Al'"^ or La'"^. The effect of impermeant cations and anions on various physiological reactions also supports the existence of a positive zeta potential for D. acidophila and of a negative zeta potential for D. parva: polycations such as DEAE-dextran and poly-Llysine strongly inhibitied photosynthesis and rnobility of D. parva, but did not affect these reactions in D. acidophila. Comparable differential inhibitions were also observed for Al' "*" and La'^, Impermeant anions such as Dextran-sulfate exhibited effects in the opposite direction: inhibition was stronger with D. acidophila and weaker with D. parva. However, the differential inhibition by impermeant anions was much less pronounced in comparison with impenneant cations due to the relatively high pK^, values of anionic solutes and consequently relatively high protonation at pH 1.0. The physiological consequences of an asymmetrically charged plasma membrane (excess of positive charges outside, excess of negative charges on the cytoplasmic side) of D. acidophila are discussed in regard to the extreme acid resistance of this alga and its resistance to cationic toxic solutes in industrial wastes.
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