Retroviral vector-mediated gene transfer into human hematopoietic progenitor cells.

The transfer of the human gene for hypoxanthine phosphoribosyltransferase (HPRT) into human bone marrow cells was accomplished by use of a retroviral vector. The cells were infected in vitro with a replication-incompetent murine retroviral vector that carried and expressed a mutant HPRT complementary DNA. The infected cells were superinfected with a helper virus and maintained in long-term culture. The production of progeny HPRT virus by the bone marrow cells was demonstrated with a colony formation assay on cultured HPRT-deficient, ouabain-resistant murine fibroblasts. Hematopoietic progenitor cells able to form colonies of granulocytes or macrophages (or both) in semisolid medium in the presence of colony stimulating factor were present in the nonadherent cell population. Colony forming units cloned in agar and subsequently cultured in liquid medium produced progeny HPRT virus, indicating infection of this class of hematopoietic progenitor cell.

Interleukin-23 is constitutively expressed in the human annulus in vivo and in vitro, and is up-regulated in vitro by TNF-α.

Interleukin-23 (IL-23, IL-23p19) is a proinflammatory cytokine in the IL-12-related family. Although inflammatory cells in herniated discs have been shown to contain IL-23, little is known about the presence and role of IL-23 in human disc cells. We analyzed disc specimens for IL-23 localization using immunohistochemistry in control, herniated and non-herniated discs from which annulus fibrosus (annulus) cells were isolated and cultured to identify IL-23 gene expression and production. Microarray analysis was used to assess the expression of IL-23 in disc tissue and in cells exposed to two proinflammatory cytokines, IL-1ß and TNF-α. IL-23 was present in annulus cells at the protein level and its expression was up-regulated significantly in herniated compared to control disc tissue. Direct measurement of medium components confirmed production of IL-23 and its receptor, IL-23R, by annulus cells in vitro. Annulus cells in three-dimensional culture exposed to TNF-α, but not IL-1ß, resulted in significant up-regulation of IL-23 expression compared to control cells. Our findings are evidence for the constitutive presence of IL-23 in the human disc and that its expression in vitro is modified by exposure to TNF-α.

Expression of serglycin in human disc is increased in degenerated discs and up-regulated in vitro by exposure to IL-1ß or TNF-α.

We investigated whether the multifunctional intercellular proteoglycan, serglycin, is expressed in human intervertebral disc cells and assessed its localization. We also investigated expression levels of serglycin in human annulus fibrosus (annulus) cells exposed to IL-1ß and TNF-α, which are two proinflammatory cytokines that are expressed during disc degeneration. Immunolocalization of serglycin was common in many cells of the human annulus, but less common in the nucleus pulposus (nucleus). Both intracellular and cell membrane localization were observed. Annulus cells from Thompson grades III, IV and V degenerated discs exhibited a 4.69 fold up-regulation in serglycin expression vs. cells from healthier grades I and II discs. In monolayer annulus cell culture, cells from more degenerated discs exhibited a 9.4 fold up-regulation of serglycin expression compared to cells from healthier discs. Exposure of cultured cells to IL-1ß or TNF-α caused significant up-regulation of serglycin expression. We found that serglycin expression increased with increasing disc degeneration both in vivo and in vitro, and also increased with exposure in vitro to IL-1ß and TNF-α.

Morphologic features of spontaneous annular tears and disc degeneration in the aging sand rat (Psammomys obesus obesus).

The sand rat, a member of the gerbil family, is a valuable small animal model in which intervertebral disc degeneration occurs spontaneously as the animal ages. Radiographic features of cervical and lumbar degeneration resemble those in human spines. We conducted a retrospective analysis of spines of 140 animals 3-41 months old focusing specifically on the presence of annular tears that are not visible by radiography and have not been described previously in the sand rat disc. During degeneration of the nucleus pulposus, notochordal cell death occurs and granular material, which stains with Alcian blue for proteoglycans, accumulates. Lamellar architecture also deteriorates and annular tears occur that are morphologically similar to the concentric, radiating and transdiscal annular tears in human discs. These tears contain granular material that provides a "marker" that can be used to distinguish the annular tears from artefactual separations during sectioning. We observed lamellar degeneration and separation in the annulus fibrosus at 4 months with associated tears that contained granular material in the nucleus. Tears that contained granular material and displacement of the degenerating nucleus were common in cervical and lumbar discs of animals older than 9 months; some specimens showed tears at 4 and 5 months. With advanced degeneration, granular globules were displaced dorsally adjacent to and into the spinal cord area and also ventrally into regions where osteophytes formed. We present morphologic data that expand the utility of this rodent model of spontaneous age-related disc degeneration and provide novel information on annular tears and disc degeneration.

The chemokine, CXCL16, and its receptor, CXCR6, are constitutively expressed in human annulus fibrosus and expression of CXCL16 is up-regulated by exposure to IL-1ß in vitro.

Chemokines are an important group of soluble molecules with specialized functions in inflammation. The roles of many specialized chemokines and their receptors remain poorly understood in the human intervertebral disc. We investigated CXCL16 and its receptor, CXCR6, to determine their immunolocalization in disc tissue and their presence following exposure of cultured human annulus fibrosus cells to proinflammatory cytokines. CXCL16 is a marker for inflammation; it also can induce hypoxia-inducible factor 1α (HIF-1α), which is a phenotypic marker of heathy nucleus pulposus tissue. We found CXCL16 and CXCR6 immunostaining in many cells of the annulus portion of the disc. Molecular studies showed that annulus fibrosus cells exposed to IL-1ß, but not TNF-α, exhibited significant up-regulation of CXCL16 expression vs. control cells. There was no significant difference in the percentage of annulus cells that exhibited immunolocalization of CXCL16 in grade I/II, grade III or grade IV/V specimens. The presence of CXCL16 and its receptor, CXCR6, in the annulus in vivo suggests the need for future research concerning the role of this chemokine in proinflammatory functions, HIF-1α expression and disc vascularization.

Constitutive expression of IL-22 in the human intervertebral disc and its reduction by exposure to pro-inflammatory cytokines in vitro.

The importance of cytokines in disc degeneration is well recognized. Little is known about IL-22 expression in the human intervertebral disc. We investigated IL-22 immuno-localization in disc tissue, and molecular expression and production of IL-22 by annulus cells cultured in three-dimensional (3D) culture. We examined human disc tissue using immunohistochemistry and we cultured isolated annulus cells in 3D to analyze IL-22 expression and production, and its receptor, IL-22R, in conditioned media. Ingenuity pathway analysis (IPA) also was used to identify significant gene expression networks within the molecular data. IL-22 and IL-22R were immunolocalized in many cells in the human outer and inner annulus; fewer cells exhibited localization in the nucleus. Three-dimensional culture of annulus cells demonstrated production of IL-22 in conditioned media; exposure to IL-1ß or TNF-α significantly reduced IL-22 levels. Significant decreases also were identified in conditioned media assayed for IL-22R in TNF-α treated cells. IPA analysis showed that IL-22 ranked among the top canonical pathways. We found constitutive expression and production of IL-22 and IL-22R in the disc, which expands our understanding of the effect of pro-inflammatory cytokines on IL-22 expression and production. Three-dimensional cultured annulus cells exposed to IL-1ß or TNF produced significantly lower levels of IL-22 into their conditioned media compared to levels produced by control cells. Our findings have clinical relevance because of the elevated pro-inflammatory milieu within the degenerating human disc.

Cellular immunohistochemical localization of the matricellular protein myocilin in the intervertebral disc.

Myocilin is a 55-57-kDa protein that is a member of the olfactomedin protein family. It is expressed in the cornea, sclera and trabecular network of the eye, myelinated peripheral nerves, heart, skeletal muscle, trachea and other tissues. Myocilin binds to a domain of fibronectin, type IV collagen and laminen in the trabecular meshwork of the eye, and its expression is influenced by transforming growth factor beta. Because these extracellular matrix components also are common in the intervertebral disc, the objective of our study was to determine whether the matricellular protein myocilin could be detected in the human or sand rat intervertebral disc using immunohistochemistry and to assess its localization. We investigated 16 specimens of human disc tissue and discs from six sand rats. Three human disc cell cultures grown in three-dimensional culture also were evaluated. Immunocytochemical annulus analysis showed the presence of myocilin within the disc cell cytoplasm in some, but not all, cells. Extracellular matrix in both the human and sand rat disc was negative for myocilin localization. Myocilin is believed to play a role in cell-cell adhesion and/or signaling. Myocilin may have such functions within the disc cell population in a manner similar to tenascin, SPARC and thrombospondin, which are other matricellular proteins recently shown to be present in the disc.

Superoxide dismutase activity of normal murine liver, regenerating liver, and H6 hepatoma.

By means of both direct assay and gel electrophoresis, normal A/J mouse liver was shown to possess both Cu-Zn and Mn superoxide dismutase (SD) activity. H6 hepatoma cells contained Cu-Zn SD activity, but no Mn SD activity was detectable. Isolated mitochondria from normal liver contained both forms of the enzyme, but isolated mitochondria from H6 hepatoma cells contained no SD activity. To ascertain whether this loss of Mn SD activity was characteristic of these tumor cells or was simply a property of rapidly dividing cells, SD activity was measured in regenerating liver. Mn SD activity was present in the regenerating liver at all times after surgery. Hence loss of the Mn SD activity seemed to be a characteristic of some tumor cells but not of corresponding rapidly dividing normal cells.

Osteogenic, stem cell and molecular characterisation of the human induced membrane from extremity bone defects.

OBJECTIVES: The biomembrane (induced membrane) formed around polymethylmethacrylate (PMMA) spacers has value in clinical applications for bone defect reconstruction. Few studies have evaluated its cellular, molecular or stem cell features. Our objective was to characterise induced membrane morphology, molecular features and osteogenic stem cell characteristics. METHODS: Following Institutional Review Board approval, biomembrane specimens were obtained from 12 patient surgeries for management of segmental bony defects (mean patient age 40.7 years, standard deviation 14.4). Biomembranes from nine tibias and three femurs were processed for morphologic, molecular or stem cell analyses. Gene expression was determined using the Affymetrix GeneChip Operating Software (GCOS). Molecular analyses compared biomembrane gene expression patterns with a mineralising osteoblast culture, and gene expression in specimens with longer spacer duration (> 12 weeks) with specimens with shorter durations. Statistical analyses used the unpaired student t-test (two tailed; p < 0.05 was considered significant). RESULTS: Average PMMA spacer in vivo time was 11.9 weeks (six to 18). Trabecular bone was present in 33.3% of the biomembrane specimens; bone presence did not correlate with spacer duration. Biomembrane morphology showed high vascularity and collagen content and positive staining for the key bone forming regulators, bone morphogenetic protein 2 (BMP2) and runt-related transcription factor 2 (RUNX2). Positive differentiation of cultured biomembrane cells for osteogenesis was found in cells from patients with PMMA present for six to 17 weeks. Stem cell differentiation showed greater variability in pluripotency for osteogenic potential (70.0%) compared with chondrogenic or adipogenic potentials (100% and 90.0%, respectively). Significant upregulation of BMP2 and 6, numerous collagens, and bone gla protein was present in biomembrane compared with the cultured cell line. Biomembranes with longer resident PMMA spacer duration (vs those with shorter residence) showed significant upregulation of bone-related, stem cell, and vascular-related genes. CONCLUSION: The biomembrane technique is gaining favour in the management of complicated bone defects. Novel data on biological mechanisms provide improved understanding of the biomembrane's osteogenic potential and molecular properties.Cite this article: Dr H. E. Gruber. Osteogenic, stem cell and molecular characterisation of the human induced membrane from extremity bone defects. Bone Joint Res 2016;5:106-115. DOI: 10.1302/2046-3758.54.2000483.

Alterations of inosinate branchpoint enzymes in cultured human lymphoblasts.

The specific activities of the three enzymes of the inosinate branchpoint are independently regulated when lymphoblasts are grown under various tissue culture conditions. In comparison to rapidly dividing cells, lymphoblasts at high cell density with no cellular division have decreased activity of the enzymes which commit inosinate to adenylate or guanylate, while cytoplasmic 5'-nucleotidase is relatively preserved. A linear relationship between inosinate dehydrogenase activity and growth rate (r = 0.92) exists in lymphoblasts with slowed growth rates. In contrast, in dividing cells adenylosuccinate synthetase and 5'-nucleotidase do not vary with growth rate. Adenylosuccinate synthetase and inosinate dehydrogenase activities appear to be related to the presence or rate of cellular division, as opposed to the presence or degree of neoplastic transformation. Lymphoblast lines with alterations of specific purine metabolic enzymes have characteristic alteration of the inosinate utilizing enzymes. Deficiencies of purine nucleoside phosphorylase or hypoxanthine phosphoribosyltransferase, abnormalities which render the cell unable to salvage purine effectively, are associated with depressed inosinate dehydrogenase activity. Insertion of the hypoxanthine phosphoribosyltransferase gene into hypoxanthine phosphoribosyltransferase-deficient cells normalizes inosinate dehydrogenase activity, while a hypoxanthine phosphoribosyltransferase-deficient mutant selected from a hypoxanthine phosphoribosyltransferase-containing line has depressed inosinate dehydrogenase activity. In contrast, overactivity of phosphoribosylpyrophosphate synthetase, with enhanced excretion of purines due to excessive production, is associated with elevated inosinate dehydrogenase activity. Inosinate dehydrogenase appears to be regulated according to the availability of purine nucleotides. Patients who overproduce uric acid and potentially have undescribed purine metabolic defects are now being screened for abnormalities in the inosinate branchpoint enzymes.

Kinetic studies of mutant human adenylosuccinase.

Residual adenylosuccinase activity was studied in cultured lymphoblasts from a pair of siblings with infantile autism who have been previously shown to have a deficiency of the enzyme. The rates and distribution of de novo purine synthesis by intact cells were nearly normal. There was no evidence of inhibitory activity in the lysates of the mutant cells. The optimal pH was indistinguishable from that in control cells. The apparent Km in the two mutant cells lines is not significantly different from normal, but the mutants displayed markedly decreased maximum steady-state velocities. Residual activities in mutant cells show decreased thermal stability, suggesting that there is a structural mutation of the adenylosuccinase in the mutant cells.

Inhibition by AICA riboside of gluconeogenesis in isolated rat hepatocytes.

5-Amino-4-imidazolecarboxamide (AICA) riboside, the nucleoside corresponding to AICA ribotide (AICAR or ZMP), an intermediate of the de novo pathway of purine biosynthesis, was found to exert a dose-dependent inhibition on gluconeogenesis in isolated rat hepatocytes. Production of glucose from lactate-pyruvate mixtures was half-maximally inhibited by approximately 100 microM and completely suppressed by 500 microM AICA riboside. AICA riboside also inhibited the production of glucose from all other gluconeogenic precursors investigated, i.e., fructose, dihydroxyacetone, and L-proline. Measurements of intermediates of the glycolytic-gluconeogenic pathway showed that AICA riboside provoked elevations of triose phosphates and fructose-1,6-bisphosphate and decreases in fructose-6-phosphate and glucose-6-phosphate. The effects of AICA riboside persisted when the cells were washed 10 min after its addition but were suppressed by 5-iodotubercidin, an inhibitor of adenosine kinase. AICA riboside provoked a dose-dependent buildup of normally undetectable Z nucleotides. After 20 min of incubation with 500 microM AICA riboside, ZMP, ZTP, and ZDP reached 3, 0.3, and 0.1 mumol/g cells, respectively. Concentrations of ATP were not significantly modified by addition of up to 500 microM AICA riboside when the cells were incubated with lactate-pyruvate but decreased with fructose or dihydroxyacetone. The activity of rat liver fructose-1,6-bisphosphatase was inhibited by ZMP with an apparent Ki of 370 microM. It is concluded that AICA riboside exerts a suppressive effect on gluconeogenesis because it provokes an accumulation of ZMP, which inhibits fructose-1,6-bisphosphatase.(ABSTRACT TRUNCATED AT 250 WORDS)

Aortic thrombosis during sigmoidoscopy in Behçet's syndrome.

A patient with Behçet's syndrome suffered acute paraparesis during sigmoidoscopy. An aortogram demonstrated thrombosis of the distal abdominal aorta just above the bifurcation; thrombectomy resulted in complete return of neurologic function. Examination of the clot disclosed a preponderance of polymorphonuclear granulocytes. We propose that mechanical trauma from this otherwise benign procedure caused the vascular lesion. Patients with a similar predisposition to arterial or venous thrombosis may, in unusual circumstances, be jeopardized by proctosigmoidoscopy.

Immunolocalization of MMP-19 in the human intervertebral disc: implications for disc aging and degeneration.

Matrix metalloproteinases (MMPs) degrade components of the extracellular matrix of the disc, but the presence of MMP-19 has not been explored. In other tissues, MMP-19 is known to act in proteolysis of the insulin-like growth factor (IGF) binding protein-3, thereby exposing this protein to make it available to influence cell behavior. MMP-19 also has been shown to inhibit capillary-like formation and thus play a role in the avascular nature of the disc. Using immunohistochemistry, normal discs from six subjects aged newborn through 10 years and 20 disc specimens from control donors or surgical patients aged 15-76 (mean age 40.2 years) were examined for immunolocalization of MMP-19; six Thompson grade I discs, five Thompson grade II, eight Thompson grade III, five Thompson grade IV, and one Thompson grade V discs were analyzed. The results indicate that in discs from young subjects, MMP-19 was uniformly localized in the outer annulus. In discs from adult donors and surgical patients, outer and inner annulus cells only occasionally showed MMP-19 localization. The greatest expression of MMP-19 was observed in young discs, and little expression was seen in older or degenerating discs. Because MMP-19 has been shown to regulate IGF-mediated proliferation in other tissues, its decline in the aging/degenerating disc may contribute to the age-related decrease in disc cell numbers.

Isolation and characterization of gap junctions in the osteoblastic MC3T3-E1 cell line.

Gap junctions are channels connecting cells that function in cell-to-cell communication. Gap junctions are abundant in osteoblastic cells. Membranes enriched for gap junction plaques were obtained by differential centrifugation, followed by treatment of the membranes with potassium iodide and sarkosyl before sucrose density gradient centrifugation. Electron microscopy showed that the preparation was enriched for electron-dense membranes consistent with gap junctions. Coomassie Blue staining of SDS-PAGE preparations revealed a prominent band at approximately 41 kD. Western analysis with a site-directed antibody, CT-360 (D. Laird, California Institute of Technology, Pasadena, CA), to the C-terminal portion of the rat heart connexin 43 molecule was positive in the MC3T3-E1 cell line, a phenotypic osteoblastic cell line derived from normal neonatal mouse calvariae. Western analysis using a monoclonal antibody, R5.21C, to rat liver connexin 32 was negative. Additionally, a prominent band at 59 kD was detected by CT-360 in both gap junction-enriched preparations and cell lysates. Treatment of diluted samples of gap junction-enriched preparations with sulfhydryl reducing agents in combination with detergents resulted in the enhancement and diminution of the 41 and 59 kD bands, respectively. Immunoprecipitation following [35S]methionine/[35S]cysteine labeling revealed a significant band detected at 122 kD in addition to the 41 kD band. To demonstrate functional gap junctions, transfer of lucifer yellow dye to surrounding cells was monitored after microinjection of a target cell. Between passages 10 and 25 in culture, functional cell coupling was found in approximately 70% of injected cells. Coupling was detected within 1-2 minutes after injection. Simultaneous microinjection of the CT-360 antibody with lucifer yellow resulted in the decoupling of cells. In conclusion, (1) MC3T3-E1 cells possess a 41 kD protein that is recognized by connexin 43 antibody to rat heart gap junction; (2) multimers of the MC3T3-E1 gap junctions occur in the preparation; and (3) functional coupling demonstrated by dye transfer may be regulated by region(s) in the C terminus of the connexin molecule.

Alterations in osteoclast morphology following long-term 17beta-estradiol administration in the mouse.

BACKGROUND: Although the role of the osteoclast in bone resorption is becoming better understood, much remains to be learned about osteoclastogenesis and the exact mechanism of action of anti-resorbing agents such as 17beta-estradiol. This study investigated bone and morphologic osteoclast alterations following long-term estrogen administration to the B6D2F1 mouse. B6D2F1 mice aged 4-5 weeks were exposed to high levels of estrogen via implanted silastic tubing for at least 12 weeks; controls received empty tubing. Femurs of control and treated mice were assessed with radiology, quantitative histomorphometry and transmission electron microscopy. RESULTS: After 8 weeks of treatment, there was radiologic evidence of severe osteosclerosis and 86% of femoral marrow space was replaced with bone. After 12 weeks histologic studies of treated animals revealed that osteoclasts were positive for tartrate-resistant acid phosphatase but showed markedly abnormal ultrastructure which prevented successful bone resorption. CONCLUSIONS: Findings extend our understanding of osteoclast structure and function in the mouse exposed in vivo to high doses of estrogen. Ultrastructural examination showed that osteoclasts from estrogen-treated mice were unable to seal against the bone surface and were unable to form ruffled borders.

Characterization and phenotypic stability of human disc cells in vitro.

Successful in vitro studies of disc cells require interaction of the cell with a compatible microenvironment which favors expression of the disc cell phenotype. The objective of this study was to characterize cells grown by standardized methods of isolation and passage, and culture cells from the human annulus in three-dimensional culture. Cells from the annulus of 11 individuals were cultured in alginate or agarose for ten days, and extracellular matrix components were evaluated with immunohistochemistry and quantitative analysis of the percent of colonies producing Type I or II collagen, 4-sulfated chondroitin sulfate or keratan sulfate. Results show production of these four extracellular matrix products through multiple passages and support the phenotypic stability of disc cells in three-dimensional culture.

In vitro tetracycline labelling and bone cell survival in human trabecular bone explants.

Results are presented which document the feasibility and utility of human trabecular bone explants for in vitro bone research. This approach is advantageous because it allows bone cells to maintain their natural orientation on the endosteal surface, and keeps surrounding marrow intact--thus retaining the immediate local microenvironment. In addition, bone cells are not exposed to transient, but sometimes harsh, isolation procedures. Data are presented which show greater initial bone cell numbers from younger donors and the change in these numbers over culture periods up to 21 days. A technique is presented which achieves single and double tetracycline label incorporation into the mineralizing front of bone explants in vitro using a pulse-chase methodology.

Ultrastructural alterations and retention of the C-propeptide of type II collagen in human chondrocytes exposed in vitro to brefeldin A.

Normal human chondrocytes grown in vitro were exposed to 10 micrograms/ml Brefeldin A (BFA) for 24 h, 1 microgram/ml for 4 h, or 0.1 microgram/ml for 4 h and evaluated for ultrastructural alterations. BFA in the amount of 0.1 microgram/ml resulted in vacuolization, disappearance of the Golgi, and moderate increases in rough endoplasmic reticulum (rER) vesicles. After 1 microgram/ml BFA exposure large interconnected cisternae were identified. BFA treatment of 10 micrograms/ml was associated with large dilated ER cisternae which contained material of variable electron densities. Immunocytochemical localization showed markedly increased type II procollagen intracellular retention in BFA-treated cells. High dose BFA-treated cells showed ultrastructural similarities to those seen in the skeletal dysplasia hypochondrogenesis. Results presented here show that in vitro culture of normal human chondrocytes results in retention of the C-propeptide of type II collagen and marked alterations in cytoplasmic ultrastructure.

Maternal and weanling bone: the influence of lowered calcium intake and maternal dietary history.

Skeletal changes in the dam during lactation (a period of skeletal depletion) and the post-lactation period (a time of skeletal repletion) are of interest as a model for the study of mineral metabolism. With the introduction of lowered calcium (Ca) intake during gestation, lactation and the post-partum period, the model can be used to investigate factors that contribute to the development and maintenance of peak bone mass. We have employed this model in the rat with varied calcium intake during gestation, lactation and neonatal growth. In one experiment, dams were maintained on 0.02% Ca during gestation-lactation; at the end of lactation vertebral bone showed decreased bone area, increased osteoid surface and increased osteoblast numbers compared with controls. Trabeculae showed woven bone and diffuse tetracycline label. Offspring from these dams maintained on 0.02% Ca post-weaning weighed less and incurred spontaneous fractures and mortality. In the second experiment dams maintained on 0.5% Ca showed a bone mineral depletion (by single photon densitometry) on days 6 and 19 of lactation, which did not resolve until 28 days post-weaning. Control dams on 1.0% Ca showed no statistically significant depletion nor post-weaning repletion. The third study examined bone mineral content of pups born to 0.5% or 1% Ca-intake dams. Offspring from 0.5% dams retained a bone mineral content deficit despite being fed 1% Ca post-weaning. Offspring from 1% dams placed on 0.5% Ca post-weaning also showed a mineral deficit. Offspring data point to the influence of maternal Ca intake during gestation/lactation. Maternal data point to the import of adequate dietary Ca to maintain the dam's bone quality and quantity during the reproductive and post-reproductive periods.