This paper reports that the Kurloff cell sulphated and chondroitinase AC sensitive material previously described filtered on Sepharose CL4B columns as 2 main populations with Kav of 0.25 and 0.44. Its alkaline treatment resulted in the elution of 2 peaks with Kav of 0.52 and 0.78. Their reduction in size observed after alkaline treatment and the 6-fold increase in the (35S) sulphate incorporation after addition of 0.1 mM xyloside to the incubation medium indicate that these intracellular sulphated glycosaminoglycans exist in the form of proteoglycans. They were characterized by their resistance to degradation by pronase, papain or cathepsin D, as assessed by gel filtration chromatography on Sepharose CL6B or CL4B. After the glycosaminoglycans were digested with chondroitinase AC, thin-layer chromatography analysis indicated the presence of delta di-4S and delta di-6S in a ratio of 7:1. The presence of such protease-resistant proteochondroitin sulphate in intracytoplasmic granules of both Kurloff cells and other natural killer cell types is emphasized.
The Kurloff cell (KC), a natural killer lymphocyte, contains a large (10-microns diameter) periodic acid-Schiff (PAS)-positive lysosome-like inclusion body called the Kurloff body (KB), which exhibits strong acid phosphatase activity. The presence of Sambucus nigra agglutinin (SNA)-reactive Neu5Ac(alpha 2,6)-D-Gal/Gal-NAc(beta 1,4)GlcNAc oligosaccharide sequences and the absence of the corresponding Neu5Ac(alpha 2,3) Maackia amurensis agglutinin (MAA)-reactive sequence in the major 35-kDa N-glycosylproteins of the complex or hybrid type extracted from purified KC were established by Western-lectin-blotting of cytosolic extracts from purified KC. Moreover, these SNA-reactive sequences, or at least part of them, were shown to be borne by sialidase-sensitive KC acid isophosphatases. Thymic sections rich in KC, from estrogenized guinea pigs were examined by affino-histochemistry with these sialic acid-reactive lectins. The SNA-reactivity of thymic sections was quasi-exclusively confined to KC clusters, whereas the whole thymic section was negative for MAA. KC were not SNA-reactive following preincubation and incubation with 200 mM lactose. When submitted to enzymatic or mild chemical desialylation processes, the SNA-reactivity of the KC clusters was enhanced. The SNA-reactivity of KC clusters was completely abolished following prolonged chemical desialylation, whereas the PAS-positivity of KB remained unchanged. Even after a prolonged sialidase treatment, this SNA-reactivity was only reduced. Moreover, after both these desialylation processes, KC developed a heavier Ricinus communis agglutinin-reactivity, thus confirming the presence of penultimate Gal residues in their abundant SNA-reactive oligosaccharide sequences Neu5Ac(alpha 2,6)Gal(beta 1,4)GlcNAc. Such a selective lectin histochemical property provides a marker for detecting KC.
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