Victoria Iwanij

Cell surface properties of normal, differentiating, and neoplastic pancreatic acinar cells

Acinar, centroacinar, and endocrine cells of the adult rat pancreas each exhibit distinctive cell‐surface glycoconjugate patterns as detected by binding of a battery of lectin‐ferritin conjugates. Acquisition of these unique glycoconjugate patterns appears to be developmentally regulated, as studies on embryonic rat pancreases at days 15, 17, and 19 of gestation indicate. Further, the three cell types appear to arise from a common stem cell(s) with surface glycoconjugate properties similar to those of the adult centroacinar cell. Studies on the cell‐surface properties of a rat acinar cell tumor20 indicate that the neoplastic acinar cells are likely to be arrested at a developmental stage equivalent to acinar cells of the day 19 embryonic pancreas and are characterized by absence of detectable basal lamina. We hypothesize that pancreatic cancers may arise from the equivalent of the undifferentiated embryonic stem cell(s) and that the morphologic features of the tumor depend on the extent of cell differentiation, including expression of cell‐surface glycoproteins and extracellular matrix, prior to neoplastic proliferation.

The purification and some properties of ribulosebisphosphate carboxylase and of its subunits from the green alga Chlamydomonas reinhardtii

Abstract A description is presented of a rapid and efficient method for large-scale preparation of ribulosebiphosphate carboxylase (EC 4.1.1.39) from the green alga, Chlamydomonas reinhardtii, and of the separation into two purified subunits. The purification of the enzyme was accomplished essentially by (NH4)2SO4 fractionation and sucrose-density gradient centrifugation, while the separation into subunits has been done by chromatography on sodium dodecylsulfate-hydroxyapatite or by gel filtration on Sephadex G-150 in the presence of guanidine-HCl. The molecular weights of the subunits, as determined by sodium dodecylsulfate-polyacrylamide gel electrophoresis, were 55.0·103 and 16.5·103. The pI of the enzyme was found to be 6.25, while that of the subunits was in the range 6.0–7.0. No amino-terminal amino acid could be detected in either of the subunits. Amino acid composition of the whole enzyme and of the separated subunits were determined and compared to those from other plant species.

Purification and use of limulin: a sialic acid-specific lectin.

A simple and rapid method for the isolation of the sialic acid-specific lectin, Limulus polyphemus hemagglutinin (LPA), from the hemolymph of Limulus polyphemus is described. Declotted hemolymph is adsorbed to an affinity chromatographic column consisting of hog gastric mucin glycopeptides coupled to agarose and LPA is eluted in a single step with a Ca2+-free buffer, giving an apparent purification of approximately 25,000-fold. The eluted material is homogeneous by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and isoelectric focusing and consists of identical subunits each of 29,000 daltons. Hemagglutination inhibition studies with horse red blood cells indicate specificity of LPA for N-acetyl- and N-glycolylneuraminic acid; binding is Ca2+ -dependent and abolished by neuraminidase treatment. LPA was covalently coupled to rhodamine and to horseradish peroxidase for use in detection of sialoglycoconjugates on cells and tissues by light and electron microscopy. Examples of the use of LPA for detection of sialoglycoconjugates in rat renal tubules and glomeruli, blood vessels in rat pancreas, and on horse red blood cells are shown. The procedures described here should prove useful as a cytochemical probe for detection of sialoglycoconjugates in a variety of systems. An accompanying article utilizes these probes for the detection of sialoglycoconjugates on the plasmalemma of adult and differentiating rat pancreatic acinar cells.

The response of optic tract glia during regeneration of the goldfish visual system. I: Biosynthetic activity within different glial populations after transection of retinal ganglion cell axons

We monitored biosynthetic activity of optic tract glia during regeneration of retinal ganglion cell axons in the goldfish and found that the greatest level of incorporated [3H]thymidine and [3H]leucine occurred in glia by 10-15 days after axotomy. During this period there was a marked increase in the number of oligodendroglia and multipotential glia near the site of injury with no change occurring in the astroglial population. Electron microscopic autoradiography showed that oligodendroglia and multipotential cells incorporated 5-7-fold more thymidine than did cells of intact control preparations. Though all glial cell types incorporated more [3H]leucine during axonal regeneration, oligodendroglia and multipotential cells together accounted for more than 90% of measured radioactivity. In order to characterize glial-stimulating events specific to axonal regeneration, we produced axonal degeneration in the optic tract by removal of the retina. Optic tract glia during axonal degeneration incorporated less amino acid when compared to glia associated with regenerating axons. The degenerating optic tract also had less 2,3-cyclic nucleotide 3-phosphohydrolase, an enzyme produced by oligodendroglia, than that found in the regenerating visual system. Our results suggest that in response to ganglion cell axotomy oligodendroglia and multipotential glia of the goldfish optic tract proliferate. Moreover, regenerating axons provide one type of stimulant for glial protein biosynthesis.

Genomic organization and promoter sequence of a gene encoding a rat liver-specific type-1 transport protein

Abstract We report the isolation and characterization of a rat gene (designated TI-LTP ) encoding a liver-specific cell-surface glycoprotein that belongs to the type-I transporter family. This gene, including 5′ and 3′ flanking domains, was cloned from a rat λDASH genomic library and its nucleotide sequence was determined. TI-LTP is a single-copy gene which spans over 6 kb and contains nine introns ranging in size from 90 bp to over 1.8 kb. Two transcription start points were located using a nuclease S-1 protection assay. The TI-LTP promoter (pTI-LTP) lacks a canonical TATA-box element, but does contain five TAGA elements. Several putative transcription-factor-binding sites were identified in the pTI-LTP , including activator protein 2 (AP-2) sites and a peroxisome proliferator response element ( PPRE ).

The response of optic tract glia during regeneration of the goldfish visual system. II. Tectal factors stimulate optic tract glia

After transection, retinal ganglion cell axons of the goldfish will regenerate by growing into a primary target tissue, the optic tectum. To determine what role the target tissue may play in regulating glial cell growth, we measured biosynthetic activity of optic tract glia following excision of the optic tectum and compared it to activity of glia found in the regenerating visual system. Ablation of the tectum reduced glial incorporation of both [3H]thymidine and [35S]methionine. Tectal ablation also led to nearly 80% reduction of amino acids incorporated by oligodendroglia as well as a decrease in the amount of newly synthesized protein found within multipotential glia and within cytoplasmic projections of astroglia. Since the tectal influence upon optic tract glia was detected at a time when tract and tectum are physically separated, we sought to determine if the optic tectum contained soluble glia-promoting factors. A soluble fraction recovered from tecta of the regenerating visual system increased amino acid incorporation within optic tract glia at 2-3-fold above preparations incubated with fractions from control, intact tecta. Comparisons of radiolabeled proteins separated by sodium dodecyl polyacrylamide gel electrophoresis from regenerating and factor-stimulated optic tract were similar and indicated that a soluble tectal fraction promoted biosynthesis of specific glial proteins. Our findings suggest that during regeneration of the goldfish visual system glia are influenced by humoral factor(s) released from the synaptic target site.

Canine kidney glucagon receptor: evidence for a structurally-different, tissue-specific variant of the glucagon receptor

125I-Glucagon was directly cross-linked to its receptor sites on the MDCK plasma membranes using a UV irradiation procedure. Analysis of the affinity labeled membranes by SDS-PAGE and autoradiography, demonstrated the presence of a single band at 74 kDa. The incorporation of radiolabeled glucagon into this band was abolished by the presence of excess unlabeled hormones, thus indicating a specificity of labeling. Also this band was observed in affinity labeled dog kidney plasma membranes. The size of the MDCK and the dog kidney glucagon receptors were consistently larger than that of the dog liver receptor as judged by electrophoretic mobility. Treatments with neuraminidase, endoglycosidase F, or N-glycanase failed to convert the renal form into the hepatic form of the receptor. Proteolytic mapping of the MDCK and the dog liver glucagon receptors revealed that major domains of both proteins are remarkably similar, yet transient variations in the size of the fragments could be detected after short duration digestions. Overall the data presents evidence that the dog renal receptor represents a structurally unique isoform of the glucagon receptor.

Identification and characterization of the glucagon receptor from adipose tissue

125I-glucagon was directly cross-linked to its receptor in isolated adipocyte plasma membranes using a UV irradiation procedure. This investigation resulted in identification of an adipocyte glucagon receptor complex of 62 kDa, present both in white and brown adipose tissues. The specificity of labeling was shown by interference of unlabeled hormone with incorporation of radioactive glucagon into 62 kDa species. Treatment of adipose plasma membranes with N-glycanase resulted in appearance of intermediate species, indicating that the glucagon receptor is modified with several N-linked oligosaccharide chains similarly to the hepatic glucagon receptor. Peptide mapping of the affinity labeled adipose membranes with Staphylococcus aureus V8 protease generated three distinct receptor fragments identical to that of the hepatic receptor. Overall, the biochemical characterization of the rat adipocyte glucagon receptor indicates that it closely resembles the hepatic glucagon receptor.

Sialoglycoconjugates of a pancreatic tumor: markers for cell polarity, membrane fluidity, and possible role in exocytosis.

The distribution and nature of sialoglycoconjugates on the surface of cells of a pancreatic carcinoma and their behavior when interacting with the sialic acid-specific lectin, limulin (LPA; from Limulus polyphemus hemolymph) were compared to those of normal pancreatic acinar cells. Fluorescence microscopy of frozen sections, using rhodaminated LPA (Rh-LPA), revealed protease-resistant binding sites evenly distributed over the cell surface of neoplastic cells, contrasting with the asymmetric distribution of sialoglycoconjugates on normal acinar cells. An asymmetric staining pattern, resembling that of normal acinar cells, was occasionally observed in tumor cells that had regained their structural polarity when in contact with the basement membranes of blood vessels. Cytochemistry, using horseradish peroxidase-conjugated LPA (HRP-LPA), showed that the binding of limulin to neoplastic cells was less intense than that to any plasmalemmal domain of normal acinar cells. In tumor cells, local intensification of LPA binding was systematically observed on plasmalemmal regions adjacent to zymogen granules. Fixed dissociated cells, both tumor and normal, treated with Rh-LPA, retained the fluorescence distribution of Rh-LPA observed in situ. Nonfixed neoplastic cells showed lectin-induced patching of limulin binding sites and were more susceptible to agglutination by LPA than normal acinar cells.

Development of physiological responsiveness to glucagon during embryogenesis of avian heart

Glucagon increases contractility of the heart muscle by stimulation of adenylate cyclase activity and elevation of cAMP. We have investigated the specific time of onset of glucagon sensitivity of heart muscle during development of the chick embryo. Using both isolated heart preparation and cultured cardiac cells, we have found that the contractile response to glucagon cannot be detected prior to Day 4 of development. Binding studies, carried out with heart cells prepared from 3-, 5-, 7-, and 11-day chick embryos, showed a significant increase in the number of glucagon binding sites between Days 3 and 5. Scatchard analysis showed that for Day 5 cells maximum binding capacity was 0.56 pmole/mg of protein with Kd of 16.0 nM, while for Day 3, maximal binding was only 0.16 pmole/mg with Kd of 15.1 nM. Therefore in this 2-day interval there was a marked increase in the receptor number, without changes in the receptor affinity. Since hormonal stimulation of adenylate cyclase depends on the presence of the regulatory component (Ns), we have used cholera toxin-induced chronotropic effect as an assay for functional Ns. No response to cholera toxin could be detected prior to Day 4 of chick heart development. Therefore, emergence of the cholera toxin sensitivity correlates well with the onset of responsiveness to glucagon. We conclude that as the heart develops it acquires a physiological responsiveness to glucagon. The acquisition of the hormonal sensitivity correlates with the increase in the receptor number and the functional levels of regulatory component.