Relationship between the acid phosphatases of the Kurloff body and the major 30-35 kDa glycoproteins of the Kurloff cell.

This study deals with the acid phosphatase (AcPase) of the Kurloff body (KB), a large (10 microns diameter) periodic acid-Schiff-positive lysosomal inclusion body present in Kurloff cells (KC). KC AcPase were extracted, with similar yields, either with non-ionic detergent solution or after Dounce homogenization in low ionic strength buffer suggesting that they mainly correspond to hydrosoluble AcPase. After DEAE-cellulose chromatography of such crude Dounce-extracts, 97% of KC AcPase activity was recovered in the unbound glycoprotein fraction (peak I)1). The main protein content consisted of, as testified by SDS-PAGE analysis, major KC glycoproteins of 30-35 kDa. Thus, KC AcPase, and particularly sialoAcPase, may be assumed to correspond to these N-glycosylproteins among which the presence of alpha (2,6) sialoglycoproteins was previously established. Following electrophoresis on a 4-15% gradient native polyacrylamide gel or isoelectric focusing, the two size populations (200 kDa and 500 kDa) and up to 20 isoforms of KC AcPase were respectively detected by zymography in peak I. After Clostridium-derived sialidase digestion of peak I, the highly active bands observed at pH 3.5-5.2 disappeared. These zymographic patterns were similar to those obtained with crude extracts. After Concanavalin A (ConA)-Sepharose chromatography of peak I, the single ConA-bound glucosamine-labelled peak, eluted at 200 methyl-alpha-D-mannopyranose, contained the AcPase activity while the ConA-unbound peak was devoid of any acid phosphatase activity. After SDS-PAGE analysis, the ConA-bound fraction appeared to correspond only to a single broad protein band in the 30-35 kDa zone.(ABSTRACT TRUNCATED AT 250 WORDS)

[Utilization of linoleate and alpha-linolenate in peritubular cells and Sertoli cells in culture]. / Utilisation du linoléate et de l'alpha-linolénate par les cellules péritubulaires et les cellules de Sertoli en culture.

The capacity of cultured peritubular cells to synthesize long-chain polyunsaturated fatty acids (PUFA) from the essential fatty acid (EFA) precursors 18:2n-6 and 18:3n-3 was tested, and compared to the PUFA biosynthesis in Sertoli cells. The concentrations of each EFA required to obtain maximal incorporation into membrane lipids were determined. The two EFA were added to the culture medium as free fatty acids complexed to albumin in a molar ratio of 12:1. When the substrates were added individually, the maximal levels of biosynthesis in peritubular cells were obtained with 0.70 microgram/ml of 18:2n-6 or 18:3n-3 in culture medium. With Sertoli cells, the concentration of 0.70 micrograms/ml linoleate or of 2.00 micrograms/ml alpha-linolenate in culture medium appeared to correspond to levels required for maximal incorporation and utilization of the n-6 PUFA or n-3 PUFA. Incorporation and metabolic utilization were always more important in cultured Sertoli cells than in cultured peritubular cells. The peritubular cell appeared to incorporate linoleate les efficiently than alpha-linolenate at identical concentrations. In agreement with observations in other cell systems (15), we found a preferential utilization of 18:3n-3 over 18:2n-6 by the delta 6 desaturase in the peritubular cell and in the Sertoli cell.

Glycoconjugates with Neu5Ac(alpha 2,6)Gal(beta 1,4)GlcNAc sequences: a selective lectin-histochemical property of Kurloff cells in guinea pig thymus.

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.

Characterization of the non-sulphated highly anionic Kurloff cell glycoconjugates by lectin- and immunoblotting: evidence for the presence of alpha (2,8)-linked polysialic acid-bearing molecules.

Urea or guanidine hydrochloride-soluble extracts from highly purified Kurloff cells (KC) radiolabelled in vitro were subjected to DEAE-cellulose chromatography. Among the three anionic peaks obtained, a major and non-sulphated peak (designated as peak IV) strongly affected by glucosamine-labelling and eluted at about 0.3 M NaCl was analyzed. Gel filtration on Sepharose CL4B and 10% SDS-PAGE indicated its heterogeneous size. Peak IV consisted mainly of N-glycans as shown by its susceptibility to tunicamycin. Further insight into its chemical nature was obtained by examining its binding capacity to different lectins and by immunodot analysis. It strongly interacted with concanavalin A (Con A) after dot-blot or Western blotting. A large amount of these glycoproteins is not of the high-mannose type since Galanthus nivalis agglutinin reacted weakly with peak IV. Moreover, bindings to Phaseolus vulgaris and to wheat germ agglutinins suggest the presence of bisecting N-acetylglucosamine residues. Bindings to Sambucus nigra and to Ricinus communis agglutinins, dramatically lessened and increased respectively after desialylation, suggest the presence of Neu5Ac alpha 2,6Gal/GalNAc sequences. The absence of outer sialic acid residues linked alpha 2,3 to galactose was demonstrated following Maackia amurensis agglutinin negativity. The use of poly(alpha 2,8-sialyl) endo-N-acylneuraminidase combined with immunodot procedure with a monoclonal antibody that specifically recognizes alpha 2,8-linked polysialic chains revealed that peak IV contains oligosaccharidic epitopes common to polysialylated neural cell adhesion molecules.

Kurloff cell ultrastructure after combined formaldehyde-cetylpyridinium chloride fixation and high-iron diamine staining.

This study deals with the ultrastructure of the chondroitin sulphate proteoglycans of the Kurloff body, a large lysosomal organelle that stains metachromatically with Toluidine Blue and which is present in Kurloff cells (a blood cell unique to the guinea pig). Splenic tissues were fixed with 1% cetylpyridinium chloride (CPC) added to 4% paraformaldehyde and examined either after Spicer's high-iron diamine staining for sulphated anionic sites followed by post-fixation with ferrocyanide-osmium tetroxide or after a simple post-fixation with ferrocyanide-osmium tetroxide. CPC-precipitated sulphated sites were preferentially located at the periphery of the Kurloff body but, unexpectedly, were absent in the central matrix. Although their electron opacity was lower, these anionic sites were readily observable in the absence of HID-staining after sole post-fixation by ferrocyanide-reduced osmium. CPC-precipitated sulphated anionic sites were either associated with the myelin figures or constituted unexpected structures. They contained (i) tightly-stacked lamellae, with a very regular 4 nm periodicity, and (ii) groups of 2, 3, 4 short dense lines with a 3-5 nm periodicity. By taking into account the susceptibility of these HID-reactive structures towards chondroitinase ABC, these different sulphated components were assumed to be related to the proteochondroitin-4-sulphate previously characterized as the only major sulphated glycoconjugate of the Kurloff cell. Their colocalization with phospholipidic structures was suggested following observation of sections treated by a chloroform-methanol mixture.

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.

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

In 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 collagen-associated sulphated proteoglycans was observed. Together with the preservation of their localization among the collagen fibrils (with, for some of them, a 50 nm 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: 3-4 nm) 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.