Jacques Izard

Natural killer activity of kurloff cells: A direct demonstration on purified kurloff cell suspensions

In order to study their natural killer effect, guinea pig splenic Kurloff cells were fractionated by Percoll discontinuous density gradient centrifugation. Kurloff cells were collected and tested for cytotoxicity in a 24-hr chromium-release test. Comparison of different splenic cellular samples (of males or estrogenized females) with increasing percentage of Kurloff cells, revealed a highly significant positive correlation (r = 0.93, alpha less than 0.01) with the cellular cytotoxicity developed against the K 562 target cells.

Kurloff cell proteoglycans: evidence for de novo synthesis of chondroitin sulphate proteoglycans by purified Kurloff cells

This paper reports the first direct demonstration of de novo synthesis ofchondroitin sulphate proteoglycans by Kurloff cells. This was achieved using highly purified splenic Kurloff cells labelled in vitro with [35S]sulphate and D‐[U‐3H]glucosamine. A single population of sulphated proteoglycans was observed after dissociative extraction, DEAE‐cellulose chromatography, Sepharose CL 6B chromatography and fluorography after electrophoresis. These were large, highly anionic proteoglycans and were completely digested by chondroitinase AC or ABC. Moreover, glycosaminoglycan extracted from Kurloff cells had the electrophoretic mobility of control chondroitin sulphate.

The major Kurloff cell glycoproteins: lectin affinities, glycosidase susceptibilities and relationship with the sialylated acid phosphatases of the Kurloff body.

Urea-soluble fractions from purified Kurloff cells (KC) were analysed by affinoblotting. Lectin reactivities were quasi-exclusively confined to the 30-35 kDa major glycoproteins (mGPs) (responsible for the PAS positivity of the Kurloff body) with strong affinities for Canavalia ensiformis lectin, Phaseolus vulgaris erythroagglutinin and Sambucus nigra (SNA), Pisum sativum, Triticum vulgaris and Ulex europeus agglutinins. These data were consistent with the presence, among the KC mGPs, of large amounts of complex or hybrid N-glycosylproteins, in particular with Neu5Ac alpha 2,6Gal/GalNAc sequences, fucosyl residues and bisected residues. Their oligosaccharide sequences belong to more than one class, since some of these lectin reactivities had to be borne by distinct N-linked oligosaccharide chains. Before further analysis, KC mGPs were separated from other highly anionic glycoconjugates, by DEAE-cellulose chromatography. Their abundant potential RCA-binding sites masked by sialic acid were then revealed after neuraminidase (sialidase) or dilute acid pre-treatment. In remaining consistent with their lectin affinities, some KC mGPs were found to be PNGase F sensitive, while, either desialylated or not, they were all O-glycanase insensitive. Finally, by combined zymography and affinoblotting, the SNA-reactive fraction of KC mGPs was shown to correspond to denatured forms of the two zymographic size populations (190 kDa and 500 kDa) of KC acid phosphatases.

Electrophoretic characterization of the protein and glycoprotein content of purified Kurloff cell cytosol.

Proteins and glycoproteins from Kurloff cells (KC) were analyzed by SDS-polyacrylamide electrophoresis, isoelectric focusing, and two-dimensional electrophoresis, and major cytosolic glycoproteins of Mr 30,000-35,000 and pHi 5.7-6.7 were characterized. After incubation with radiolabeled amino acids (L-35S) methionine and L-(U14C) leucine) and gel autoradiography, all the proteins seemed to be labeled. D-(U14C) glucosamine-labeled proteins and periodic-acid-Schiff(PAS)-positive proteins focalized at the same pH. These data suggest that the major glycoprotein are synthesized by the KC themselves and that the PAS-positive Kurloff body has an endogenous origin. Whereas estrogens increase the KC number, 10(-6) M estradiol had no effect on the KC protein electrophoretic pattern and protein biosynthesis, in agreement with the lack of estradiol receptor in the KC cytosol.

New data on the cytolytic effects of natural killer cells (Kurloff cells) on a leukemic cell line (guinea pig L2C)

L2C leukemia is a leukemia that occurs in strain two guinea pigs. The L2C cells are natural killer-sensitive. The Kurloff cell (KC), a guinea pig NK cell, develops a 3-fold increase in lysosomal enzyme activity and the number of KC cells increases during leukemogenesis, leading to KC cell-mediated L2C cytolysis. This paper shows that conjugates are produced by incubating KC and L2C for 4 h, with 34% of L2C showing chromatin compaction and shrinkage of the cytoplasm. There was also a reorientation of the KC cytoplasmic organelles to face the target cell and an elongation of the KC to produce arms that engulfed the L2C. The L2C had either necrotic or apoptotic characteristics. L2C DNA fragmentation was demonstrated in situ with the comet and the TUNEL assays. 22.2% of the viable L2C lost their membrane asymmetry during KC-L2C conjugation as shown by incubation with Annexin V-FITC. These results provide new evidence that the death of L2C is due, at least partly, to apoptosis. The cytolytic effect of the NKKC might be a model of the cytological changes that occur in NK cell-leukemic cell conjugates.

Collagen-associated sulphated proteoglycans. Ultrastructure after formaldehyde-cetylpyridinium chloride fixation

SummaryIn the course of an ultrastructural cytochemical study of intracellular sulphated proteoglycans involving the addition of cetylpyridinium chloride in the primary aldehyde fixative, a remarkable ultrastructural preservation of the collagenassociated sulphated proteoglycans was observed. Together with the preservation of their localization among the collagen fibrils (with, for some of them, a 50nm periodic association with d-bands) and of their native elongated shape, previously observed under similar technical conditions, these stick-shaped and chondroitinase ABC-sensitive proteoglycans exhibited a typical pattern with several dense longitudinal parallel tracks (periodicity: 3–4nm) not described as yet. Readily observable without high iron diamine-staining, the morphology of these cetylpyridinium chloride-precipitated and collagen-associated polyanions was particularly enhanced after incubation in the diamine solution which ascertained their sulphate content.Such a common ultrastructural organization with parallel tracks for both intracellular (i.e., in eosinophilic polymorphonuclear cells and Kurloff cells) and extracellular CPC-precipitated sulphated proteoglycans could correspond to intrinsic properties of the complexed molecules and could be related to ‘double track’ proteoglycans observed under other technical conditions in basement membranes.

Kurloff cell proteoglycans: presence of two main size-populations of intracellular protease-resistant proteochondroitin sulphate. Effect of D-xyloside

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 Δ di‐4S and Δ 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.

Alpha naphthyl acetate esterase activities in guinea pig Kurloff cells: a cytochemical and electrophoretic study

We established the presence of nonspecific esterases in the Kurloff cell (KC) by cytochemical methods at both light and electron microscope levels. Acid alpha-naphthyl acetate esterase (ANAE) activities were localized on the external face of the plasma membrane and on the external surface of the membrane surrounding the Kurloff body. Different cytosoluble KC extracts were obtained from purified splenic KC suspensions. About 18 isoenzymes were observed by isoelectric focusing, whereas after polyacrylamide gradient gel electrophoresis in native conditions almost all activity was observed on a few broad bands with very high apparent molecular weights, suggesting their oligomeric arrangement. After a first aqueous extraction step which released only a few isoenzymes, the remaining pellet was subjected to Triton X-100. This released almost all the isoenzymes observed after direct Triton X-100 extraction. These data suggest that almost all the KC esterases are membrane-bound enzymes, in agreement with the subcellular enzyme distribution. Different substrates were also used to characterize the different specificities of the KC isoesterases. Weak activity was detected with alpha-naphthyl butyrate by light cytochemistry, which essentially corresponded, on zymograms, to the membrane-bound esterase activity.

Kurloff cell lysosomal arylsulphatases: presence of both cationic and highly anionic isoforms of the sole B class

Following the previous ultrastructural demonstration of the presence of arylsulphatase (Asase) activities in Kurloff cells (KC) and of their quasi‐exclusive localization in the Kurloff body (KB), this work investigates their biochemical and zymographic properties after extraction from purified KC suspensions. Using the discriminative inhibitory conditions of both the Baum or LeeVaupel and Conzelmann methods, nitrocatechol sulphate hydrolyzing enzymes of the KC were assumed to belong to the B class of the type II Asase alone. After electrophoretic separation under non‐denaturing conditions in a 4–23% polyacrylamide gel, they were characterized by 55 kDa and 62 kDa zymographic bands. After isoelectric focusing, ‘classical’ cationic isoforms (pI 8.5) and two anionic isoforms (pI 4.4 and 4.6) were observed on zymograms. As expected for class B Asase, the different zymographic forms of KC Asase were only recovered in the unadsorbed fraction after anion‐exchange chromatography on DEAE‐cellulose column equilibrated with high ionic strength buffer. Their Km (2.1 mM), their optimum pH (5.8) and their inhibitions by sulfite, phosphate, sulphate and ascorbic acid as well as their slight stimulation by AgNO3 were also characteristic of this class of Asase. Finally, chondroitin4‐sulphate was shown to potentially be a physiological substrate for these lysosomal enzymes.

The proteoglycan skeleton of the Kurloff body as evidenced by cuprolinic blue staining.

SummaryThis study deals with the ultrastructure of the chondroitin sulphate proteoglycans of the Kurloff body, a large lysosome organelle, metachromatic towards Toluidine Blue, of a blood cell unique to the guinea pig and called the Kurloff cell. Splenic Kurloff cell from oestrogen-treated guinea pig cells were examined after staining with Cuprolinic Blue, a cationic phthalocyanine-like dye, in the presence of MgCl2 in a critical electrolyte concentration method. Better results were obtained when the fixation-staining by the glutaraldehyde Cuprinolinic Blue MgCl2 mixture was preceded by a glutaraldehyde pre-fixation. On light microscopy, Kurloff bodies generally exhibited an overall pink and glassy metachromasia, sometimes with additional darker metachromatic small dots at their peripheries. At the ultrastructural level, the metachromatic central matrix of the Kurloff body usually exhibited, as a major feature, a typical network pattern of ribbon-like or stellate electron-dense precipitates suggesting the presence of a skeleton of Cuprolinic Blue-reactive filamentous structures. Taking into account their high anionicity (as shown by the stability of the dye binding in the presence of 0.3 m MgCl2) and their susceptibility to chondroitinase ABC, these anionic structures were assumed to be related to the proteochondroitin-4-sulphate previously characterized as the only major sulphated glycoconjugate of the Kurloff cell.