Helix-loop-helix-type transcription factor (HES-1) is expressed in osteoblastic cells, suppressed by 1,25(OH)2 vitamin D3, and modulates 1,25(OH)2 vitamin D3 enhancement of osteopontin gene expression

The active form of vitamin D, 1,25(OH)2 vitamin D3 (D3), is a potent modulator of osteoblastic function. In this study, we examined, the expression of a negative-type basic helix-loop-helix transcription factor, HES-1, in osteoblastic cells and the regulation of its expression by D3. We found that HES-1 is expressed as a 1.7 kb mRNA in rat osteoblastic osteosarcoma ROS17/2.8 cells. Treatment with D3 suppressed HES-1 mRNA levels by about 50%. This suppression was observed within 24 h and lasted for at least 48 h. The suppressive effect was dose-dependent starting at 10(-9) mol/L and saturated at 10(-8) mol/L. The vitamin D3 suppression of HES-1 mRNA level was blocked by actinomycin D as well as cycloheximide, suggesting the involvement of transcriptional control, which requires new protein synthesis. Proteins in the crude nuclear extracts prepared from ROS17/2.8 cells bound to the N-box sequence (CACNAG). To examine the function of HES-1 in osteoblasts, HES-1 was overexpressed in ROS17/2.8 cells. Overexpression of HES-1 suppressed the vitamin D-dependent upregulation of osteopontin gene expression in these cells. Vitamin D suppression of HES-1 gene expression was also observed in normal rat calvaria-derived osteoblast-enriched cells. These results indicate that HES-1 is expressed in osteoblastic cells and is involved in vitamin D3 regulation of osteoblastic gene expression.

Possible involvement of MSX-2 homeoprotein in v-ras-induced transformation

A truncated MSX-2 homeoprotein was found to induce flat reversion when expressed in v-Ki-ras-transformed NIH3T3 cells. Although the expression of endogenous MSX-2 gene is low in most of the normal adult tissues examined, it is frequently activated in carcinoma-derived cell lines. Likewise, the gene is inactive in untransformed cells but is transcriptionally activated after transformation by v-Ki-ras oncogene, suggesting that the intact MSX-2 may play a positive, rather than suppressive, role in cell transformation. To test this possibility, we isolated a full-length human MSX-2 cDNA and tested its activities in two cell systems: fibroblast and myoblast. In NIH3T3 fibroblasts, although the gene by itself failed to confer a transformed phenotype, antisense MSX-2 cDNA as well as truncated MSX-2 cDNA interfered with the transforming activities of both v-Ki-ras and v-raf oncogene. In C2C12 myoblasts, MSX-2 was found to suppress MyoD gene expression, as do activated ras oncogenes, under certain culture conditions, and truncated MSX-2 cDNA was found to inhibit the activities of both MSX-2 and ras in this system as well. Our findings not only suggest that the truncated version MSX-2 may act as a dominant suppressor of intact MSX-2 but also raise the possibility that MSX-2 gene may be an important downstream target for the Ras signaling pathways.

Tyrosine kinase dependent expression of TGF-beta induced by stretch in mesangial cells

Increased glomerular hydraulic pressure has been suggested as a major causative factor in the development of glomerular sclerosis. The elevation of glomerular pressure increases the magnitude of stretch to mesangial cells. The study was, therefore, designed to investigate the effect of mechanical stretch on expression of TGF-beta and extracellular matrix components in cultured rat mesangial cells. The results showed that mechanical stretch stimulated mRNA expression for TGF-beta1 and TGF-beta3 in a time dependent manner, and that mesangial cells secreted substantial amounts of TGF-beta proteins in response to stretch. Stretch was also shown to stimulate mRNA expression for collagen types I and IV, and fibronectin, major components of mesangial extracellular matrix. The stretch-induced mRNA expression for extracellular matrix components was inhibited by neutralizing antibody to TGF-beta. Moreover, stretch-induced mRNA expression of TGF-beta was inhibited by tyrosine kinase inhibitors, genistein or herbimycin A, whereas Ca channel blockers nitrendipine or Gd3+, and inhibitors for protein kinase A or C had no effect. These findings indicate that stretch induced TGF-beta mRNA primarily through tyrosine kinase-dependent mechanisms in cultured rat mesangial cells, and the secreted TGF-beta may play a significant role for the stretch-induced expression of extracellular matrix proteins. Our results suggest that stretch-induced TGF-beta of mesangial cells might be a mediator in the progression of glomerular sclerosis as an autocrine/paracrine factor.

[Increase in pulmonary vascular permeability caused by increased expression of Mac-1 on the surface of polymorphonuclear leukocytes]

We studied the expression of adhesion molecules on the surface of human polymorphonuclear leukocytes (PMNs). The effects of mechanical stimulation were measured with a flow cytometer and pulmonary vascular injury due to accumulation of PMNs in the lungs was assessed by a gravimetric method. The accumulation of PMNs in the lungs was studied by measuring the amount of myeloperoxidase. PMNs were stimulated by gentle agitation in a glass container for 10 s. Mac-1 (CD11b/CD18) was upregulated on the surface of PMNs that were mechanically stimulated. When unstimulated PMNs were exposed to isolated rat lungs, the filtration coefficient did not change from that under baseline conditions. However, when mechanically stimulated PMNs were exposed to isolated rat lungs, the filtration coefficient was about 5 times higher than that measured at baseline. When mechanically stimulated PMNs treated with anti-CD18 antibody were used, the increase in the filtration coefficient was completely blocked. The assay of myeloperoxidase revealed that PMNs stuck to isolated rat lungs only after stimulated PMNs were added. We conclude that when the adhesiveness of PMNs is increased by mechanical stimulation, these cells adhere to pulmonary vessels and increase pulmonary vascular permeability.

Characterization of a mammalian cell death gene Nedd2

Through subtraction cloning approach, we have identified a set of mouse genes with developmentally down-regulated expression in brain. One such gene, termed Nedd2, was found to encode protein similar to the mammalian interleukin-1b-converting enzyme (ICE) and the product of the nematode (C. elegans) cell death gene ced-3. Our data suggest that Nedd2 is an important component of the mammalian programmed cell death machinery.

cDNA cloning, expression analysis, and mapping of the mouse Nedd4 gene

The Nedd4 gene was initially identified by a subtraction cloning approach as a highly expressed transcript in the mouse embryonic brain. Cloning of the Nedd4 cDNA indicated that it can encode a protein of approximately 103 kDa, consisting of a Ca2+ and phospholipid binding domain, three putative protein-protein interaction domains (the WW domains), and a carboxyl-terminus region similar to the ubiquitin-protein ligase domain (hect domain). In mouse embryos, the expression of Nedd4 in the central nervous system is highest during neurogenesis and decreases as development progresses. In addition to the central nervous system, the expression of Nedd4 is detected in various embryonic tissues and persists in most adult tissues. Using an antibody raised against a fusion protein, we show that Nedd4 protein is localized to the cellular cytoplasm. We have mapped the mouse Nedd4 gene to chromosome 9 using an interspecific backcross panel. Nedd4 maps to a previously defined homologous region between human and mouse chromosomes and thus provides additional information regarding interspecies comparative mapping.

Perturbation of BMP signaling in somitogenesis resulted in vertebral and rib malformations in the axial skeletal formation

Axial skeletons such as vertebrae, ribs, and scapulae develop from the embryonic somitic mesoderm through interactions with neural tube/notochord and skin ectoderm. Bone morphogenetic proteins (BMPs) seem to play important roles in these tissue interactions; however, the relationship between BMP signaling and the early development of axial skeletons is poorly understood. In this report, we investigated possible roles of BMP signaling in axial skeletal formation. First, we describe the expression patterns of BMP4 and type I receptors for BMP during somitogenesis in chick embryos based on whole mount in situ hybridization. Next, the effects of BMP on axial skeletal morphogenesis were investigated by implantation of BMP proteins into the dorsal mesoderm at the time of somitogenesis. Transcripts for both BMP4 ligand and its receptors are expressed in the dorsal ectoderm and mesoderm. Implantation of BMP4 and BMP2 into the dorsal regions of embryos result in subsequent anomalies of vertebrae, ribs, and scapulae. The effects of BMP implantation on the skeleton are shown to be dependent upon the somitic stage. Vertebral anomalies are restricted to the dorsolateral elements of the vertebrae and specifically observed after BMP implantation into embryonic day 2 (E2) embryos, but not E3 embryos. These results indicate that implantation of BMP into the dorsal part of embryos where endogenous BMP ligand and BMP receptors are expressed perturbs BMP signaling and causes axial skeletal malformations. The findings presented here suggest that BMP signaling may be involved in the early developmental process of the axial skeleton.

[Role of leukotriene B4 in monocrotaline-induced pulmonary hypertension]

Monocrotaline (MCT) causes lung inflammation and chronic pulmonary hypertension associated with lung vascular thickening in rats. We hypothesized that leukotriene B4 (LTB4) and LTB4-induced accumulation of leukocytes in the lung play a role in MCT-induced lung disease, and therefore measured LTB4 and myeloperoxidase (MPO) levels in lung tissue of MCT-treated rats. Next, we examined the effect of an orally active LTB4 receptor antagonist (ONO4057) on MPO levels in lung tissue, on pulmonary hypertension, and on pulmonary vascular remodeling induced by MCT. Lung LTB4 and MPO levels had increased by 3 days after MCT injection. In the ONO4057-treated MCT rats, lung MPO levels were significantly lower than in the rats given MCT but not ONO4057. By the third week after injection. MCT had caused increases in mean pulmonary arterial pressure, in the ratio of right ventricular weight to left ventricle+septum weight (RV/[VS + S]), and in media wall thickness of the muscular arteries of the lung. Treatment with ONO4057, either for 3 weeks or during the first week after MCT injection, significantly reduced pulmonary hypertension, right ventricular hypertrophy, and lung vascular thickening induced by MCT. These results indicate that ONO4057 reduces both the accumulation of leukocytes in lung tissue and the chronic pulmonary hypertension induced by MCT, and they suggest a role for LTB4 in the inflammatory process that contributes to pulmonary hypertension and lung vascular remodeling induced by MCT in rats.

Hypoglycemic activity of to-kai-san (Chinese medicines) in normal and KK-Ay mice

The hypoglycemic effect of To-Kai-San (TS) was studied in normal mice, streptozotocin-induced diabetic mice, one of the animal models of insulin-dependent diabetes mellitus (IDDM) with hypoinsulinemia, and KK-Ay mice, one of the animal models of non-insulin-dependent diabetes mellitus (NIDDM) with hyperinsulinemia. TS (1,500 mg/kg) reduced the blood glucose of the KK-Ay mice from 441 +/- 36 to 285 +/- 52 mg/100 ml 7 h after a single oral administration (p < 0.001). However, no changes in blood glucose were observed in the normal and STZ-induced diabetic mice. TS also decreased the blood glucose 20 days after repeated administration to normal and KK-Ay mice. In addition, TS-treated KK-Ay mice showed decreased plasma insulin levels after both single and repeated administration. From these findings, it is believed that TS may require the presence of insulin to display its activity.

[Early postirradiation changes in Na+ and fluid transport across alveolar epithelium in rats]

To study changes in Na+ and fluid transport that occur soon after irradiation of the thorax, we used fluid-filled isolated rat lungs. Irradiation 15 Gy of 60Co doubled the fluid absorption rate across the alveolar epithelium within 2 weeks, but fluid absorption had returned to the baseline values by 3 weeks after irradiation. The timing of this change in fluid absorption was parallel to the time course of Na+ escape across alveolar epithelium and the two correlated closely. These data suggest that a dysfunction of alveolar epithelial Na+ transport is involved in the development of pulmonary edema after irradiation of the thorax.

Use of interimplant displacement to measure mandibular distortion during jaw movements in humans

It has been reported that the mandibular body and the dental arch distort during jaw movements because of contraction of the jaw muscles. In the present study the relative position between two biointegrated implants approx. 10 mm apart was measured during maximum opening and protrusive movements of the jaw using a magnetic sensor system. Mandibular distortion was evaluated as the change in the sensor signal. In all participants the distal implant deviated to the lingual side relative to the mesial implant and the deviation with jaw protrusion was larger than that with opening movement. The linear displacement of the two implants ranged from 8 to 25 microns during maximum opening and from 10 to 37 microns during jaw protrusion. Further investigation is required to establish the mechanism of this mandibular distortion, which may be of relevance to implant therapy.

The contribution of endogenous mono-ADP-ribosylation to kindling-induced epileptogenesis

We examined the alteration of endogenous mono ADP-ribosylation in the hippocampus of amygdaloid kindled rats to clarify the neurochemical basis of epilepsy. A significant increase of the ADP-ribosylation on the 38 kDa protein was observed in the hippocampal membrane of the kindled rat. Several antiepileptics (phenytoin, phenobarbital, carbamazepine, sodium valproate) significantly decreased the ADP-ribosylation on the 38 kDa protein and effaced the increase in the kindled group. The ADP-ribosylation was largely increased by sodium nitroprusside, a nitric oxide generating compound, in both the kindled and control groups. Carbamazepine could not affect the ADP-ribosylation in the presence of sodium nitroprusside. Twenty amino acids from the N-terminus of the ADP-ribosylated 38 kDa protein were determined by sequential analysis. The sequence was completely identical to that of glyceraldehyde-3-phosphate dehydrogenase. These results indicate that the endogenous mono-ADP-ribosylation which increased in the kindled group and decreased by the antiepileptics might be a specific reaction associated with the mechanisms of epileptogenesis.

Characterization of rat receptor-like protein tyrosine phosphatase gamma isoforms

We identified four isoforms of receptor-like protein tyrosine phosphatase gamma (RPTPgamma) from rat brain by cDNA cloning. We designated these molecules RPTPgamma-A, -B, -C, and -S. RPTPgamma-A was the longest form and had the same structure as human and mouse RPTPgamma. RPTPgamma-B lacked the intracellular juxtamembrane 29 amino acids of RPTPgamma-A. RPTPgamma-C had a single phosphatase domain. RPTPgamma-S is an extracellular variant of RPTPgamma. mRNAs of the four isoforms were expressed in the brain, kidney, lung, and heart. Transfection of RPTPgamma-A and -S expression plasmids into COS7 cells resulted in the expression of membrane-bound 190-kDa proteins and secreted 120-kDa proteins, respectively. These molecules were similar to PTPzeta/RPTPbeta with regard not only to structure but also to the presence of both secretory and transmembrane forms. However, RPTPgamma isoforms were not expressed as proteoglycans.

Second-look hepatectomy after 5FU arterial infusion in patients with primary unresectable hepatic colorectal metastases

We treated primary unresectable hepatic colorectal metastases by hepatic arterial chemotherapy (HAC) combined with resection of the tumor. Patients underwent a resection of the primary colorectal tumor and a placement of HAC system, and received a 5-fluorouracil (5FU) administration once a week (320 mg/m(2)/day). Five patients underwent a 'second-look' hepatectomy in this series. Their shrinkage rate of the primary lesion ranged from 80-99%, as seen by computed tomography. The resected liver tumors were characterized as p53-positive and proliferating cell nuclear antigen-positive. The levels of fluorodeoxyuridylate (FdUMP) and thymidylate synthetase inhibition were low in the tumor tissue. These results might reflect a kind of resistance to 5FU therapy. Hepatectomy is one of the possible options to eradicate the residual SFU-resistant component of the malignancy. Our preliminary experience possibly indicates longer survival from combination approach than from HAC alone.

Sulfhydryl modification inhibits K+ (M) current with kinetics close to acetylcholine in rodent NG108-15 cells

The effects of sulfhydryl reagents on M-type voltage-dependent potassium currents (IK(M)) were examined in NG108-15 cells transformed to express ml muscarinic acetylcholine receptors (mAChRs), a NGPM1-27 clone. Focal application of glutathione at millimolar concentrations dissolved in acidic solutions caused a transient inward current in NGPM1-27 cells at holding potentials of -30mV, associated with an inhibition of IK(M). The glutathione-induced response was mimicked by cysteine. These effects were also reproduced by superfusion with micromolar concentrations of HgCl2, AgNO3, N-methylmaleimide and p-chloromercuribenzoic acid (pCMB), agents which target protein thiols. Glutathione, HgCl2, AgNO3 and pCMB inhibited the peak conductance of IK(M) without shifting the half activating voltage (V1/2), which was comparable to the acetylcholine (ACh)-induced response. The voltage dependence of time constants for IK(M) deactivation in sulfhydryl reagent-, ACh- and non-treated cells resembled, but differed from that in Ba(2+)-treated cells. These results reveal that there is an accessible cysteine moiety, but not a disulfide bond, either on the M channel protein itself or on a protein directly involved in agonist-M channel coupling.

The betaHC-9 pancreatic beta-cell line preserves the characteristics of progenitor mouse islets

betaHC-9 is a pancreatic beta-cell line that is derived from the hyperplastic islets of transgenic mice that express the simian virus 40 tumor antigen gene in the islets. This cell secretes insulin in response to glucose in a concentration-dependent manner. Maximal and half-maximal concentrations were approximately 20 and approximately 10 mmol/l, respectively, with a maximal fractional release that averaged 3.7% of the total cellular insulin content per 60 min. The cellular insulin content was 3-9% of the content of mouse islet cells. Under perifusion conditions, high glucose concentrations induced a sharp first phase that lasted approximately 10 min and a succeeding second phase of sustained release, as exhibited by mouse islets. The cells did not show a rising second phase as seen with rat islets. This biphasic response was obtained without the need for activators of protein kinase A such as forskolin or 3-isobutyl-1-methylxanthine. The dose-dependency and the phasic response to glucose were essentially invariable up to passage 38 but thereafter declined. The cells respond to various well-known stimulators of insulin secretion, including leucine and arginine; to modulators such as carbachol, glucagon-like peptide I, and pituitary adenylyl cyclase activating polypeptide; and to the inhibitors norepinephrine, somatostatin, and galanin. The pharmacological agents glibenclamide, 12-O-tetradecanoylphorbol-13-acetate, and KCl stimulate and forskolin potentiates insulin release. Mannoheptulose, 2-deoxyglucose, and nitrendipine inhibit glucose-stimulated insulin release from the cells. The intracellular Ca2+ concentration was raised by high glucose and by glibenclamide. In conclusion, this cell line preserves the fundamental characteristics of the progenitor normal mouse islets very well. Although several cell lines have been reported to have glucose-responsive insulin secretion, few demonstrate clear biphasic secretion as this cell line displays. In this context, this cell line should serve as a potent tool for studying the mechanisms of insulin secretion, especially the important phasic secretion.

Messenger RNA expression of the genes encoding receptors for bone morphogenetic protein (BMP) and transforming growth factor-β (TGF-β) in the cells from the posterior longitudinal ligament in cervical spine

Posterior longitudinal ligament (PLL) in cervical spine is one of the sites of ossification in idiopathic hyperostotic diseases. Although the mechanism of the pathological triggering of the disease has not yet been clarified, the cells in PLL have been reported to express osteotropic cytokines such as BMP-2 and TGF-β. However, it has not been known whether the cells in PLL express receptors for these cytokines. We examined the expression of the messenger RNAs of the genes encoding receptors for BMP-2/4 and TGF-β in the PLL cells. Tissues from three OPLL (ossification of the posterior longitudinal ligament) patients who underwent anterior decompression surgery with removal of the ossified PLL were dissected microscopically and were subjected to explant cultures; the cells outgrown from the explants were examined. Type I BMP receptor (BMPR) mRNA was expressed at moderate levels in the cells derived from both ossifying PLL tissues as well as nonossifying adjacent fibrous tissues. Type II TGF-β receptor (TβR) mRNA and α1(I) collagen mRNA were also constitutively expressed in these PLL cells from either regions. Treatment with BMP-2 enhanced the expression of BMPR mRNA in five out of ten of the cell cultures, suggesting that functional BMP receptors were expressed in at least a part of the PLL cells. The BMP-2 effect on BMPR was specific since no such enhancement was observed with regard to the levels of TβR mRNA in all of the ten cultures. These results indicated for the first time that mRNAs of the genes encoding receptors for BMP-2/4 and TGF-β were expressed in the cells derived from human PLL cells.

A point mutation in glycoprotein IX coding sequence (Cys73 (TGT) to Tyr(TAT)) causes impaired surface expression of GPIb/IX/V complex in two families with Bernard-Soulier syndrome

Bernard-Soulier syndrome (BSS) is a rare inherited bleeding disorder which is caused by abnormal expression or function of the glycoprotein (GP) Ib/IX/V complex, a platelet major receptor for von Willebrand factor. We studied four BSS patients in two unrelated families in which the same and novel mutation was found. Flow cytometric analysis showed that GPIX was completely absent but residual amounts of GPIb alpha and GPV were detectable in these patients. We analyzed all coding regions of GPIb alpha, GPIb beta, GPV and GPIX which were amplified from the patients' genomic DNA by the polymerase chain reaction (PCR). In all four cases, we identified a point mutation in the GPIX coding region that changes the codon for cysteine 73 (TGT) to a codon for tyrosine (TAT). Furthermore, we confirmed by a transient expression study that the mutation caused the loss of adequate surface expression of GPIX. Since cysteine might be important for the secondary structure, this mutation of GPIX gene would lead to a dramatic conformational change of GPIX protein, resulting in the reduced surface expression. We concluded that this novel point mutation of the GPIX gene was responsible for BSS in these families.

Phosphorylation of a 25 kDa protein is induced by thermostable direct hemolysin of Vibrio parahaemolyticus

Thermostable direct hemolysin (TDH) is a possible virulence factor produced by Vibrio parahaemolyticus. Although TDH has a variety of biological activities, including hemolytic activity, the biochemical mechanism of action remains uncertain. Here we analysed biochemical events, especially phosphorylation, caused by TDH in erythrocytes, and found that TDH caused significant phosphorylations of proteins on erythrocyte membrane. Phosphorylation of proteins was studies using [gamma-32P] ATP and SDS-PAGE. A number of protein kinase inhibitors were tested, to determine which types of kinases were involved in the phosphorylation events. TDH induced the phosphorylation of two proteins on membranes of human erythrocyte that are sensitive to TDH. The estimated molecular weight of these proteins was 25 and 22.5 kDa. Interestingly, the 22.5 kDa, but not the 25 kDa protein, was phosphorylated on the membrane of TDH-insensitive (resistant) horse erythrocytes. Moreover, a mutant TDH (R7), which retained binding ability but lost hemolytic activity, also phosphorylated only the 22.5 kDa protein on human erythrocyte membranes. Among the protein kinase inhibitors used the protein kinase C inhibitors, (staurosporine and calphostin C) showed marked inhibition of phosphorylation of 25kDa protein. In addition to phosphorylation, these protein kinase C inhibitors suppressed hemolysis by TDH. These results indicate that the phosphorylation of the 25 kDa protein seems to be essential for the hemolysis by TDH after it binds to erythrocyte membranes.

Oligoclonal accumulation of T cells in peripheral blood from patients with idiopathic thrombocytopenic purpura

To determine whether clonal T cells accumulate in idiopathic thrombocytopenic purpura (ITP), we performed single-strand conformation polymorphism (SSCP) analysis to detect T-cell receptor (TCR) beta-chain usage of peripheral T cells. We detected significantly more oligoclonal T cells (15.5 +/- 8.9 bands representative for clonal T-cell expansions) in peripheral blood from ITP patients than from healthy donors (2.8 +/- 2.6 bands). Frequently used V beta genes in these accumulated T cells in ITP were V beta 3, 6, 10, 13.1 and 14. To determine whether these bands were derived from clonal T cells, presumably in a preactivated state, we established some T-cell clones (expressing CD4 and TCR V beta 6. 13.1. or 14) by nonspecific stimulation from patients peripheral mononuclear cells, and examined their clonotypes. Clonal identities for three out of seven clones tested were confirmed using SSCP analyses to compare the migration of their beta-chain complementarity determining region 3 (CDR3) cDNAs, expanded by polymerase chain reaction (PCR) with those from peripheral blood. Therefore, distinctive T-cell clones accumulated in the periphery in ITP and they may be related to the autoimmune-mediated destruction of platelets.

Sclerotome-related helix-loop-helix type transcription factor (scleraxis) mRNA is expressed in osteoblasts and its level is enhanced by type-beta transforming growth factor

Scleraxis is a recently identified transcription factor with a basic helix-loop-helix motif, which is expressed in sclerotome during embryonic development. We have examined the expression of scleraxis mRNA in rat osteoblastic cells and found that the scleraxis gene was expressed as a 1.2 kb mRNA species in osteoblastic osteosarcoma ROS17/2.8 cells. The scleraxis mRNA expression was enhanced by type-beta transforming growth factor (TGF beta) treatment. The TGF beta effect was observed in a dose-dependent manner starting at 0.2 ng/ml and saturating at 2 ng/ml. The effect was time-dependent and was first observed within 12 h and peaked at 24 h. The TGF beta effect was blocked by cycloheximide, while no effect on scleraxis mRNA stability was observed. TGF beta treatment enhanced scleraxis-E box (Scx-E) binding activity in the nuclear extracts of ROS17/2.8 cells. Furthermore, TGF beta enhanced transcriptional activity of the CAT constructs which contain the Scx-E box sequence. TGF beta treatment also enhanced scleraxis gene expression in osteoblast-enriched cells derived from primary rat calvaria. These findings indicated for the first time that the novel helix-loop-helix type transcription factor (scleraxis) mRNA is expressed in osteoblasts and its expression is regulated by TGF beta.

Plasma cells composing plasmacytoma have phenotypes different from those of myeloma cells

We describe one relapsed case of plasmacytoma of mandibular bone. The organs of relapse were liver and bone marrow. At relapse, monoclonal gammopathy (IgG-kappa) was observed without suppression of IgA and IgM. By immunostaining, the plasma cells of both the original mandibular bone and liver were positive for the same cytoplasmic immunoglobulin light chain kappa. The proliferative plasma cells in the bone marrow had the phenotype of CD38+, CD19+, and CD56- by flow cytometry and showed the presence of the rearranged IgH gene by Southern blotting. In addition, the zone of the Ig class of the patient's serum was not so sharply defined by zone electrophoresis. These results suggest that the characteristics of plasma cells of plasmacytoma are different from those of multiple myeloma.

Cleavage of single- and double-stranded DNAs containing an abasic residue by Escherichia coli exonuclease III (AP endonuclease VI)

The Escherichia coli exonuclease III (AP endonuclease VI) is a DNA-repair enzyme that hydrolyzes the phosphodiester bond 5' to an abasic site in DNA. To study how the enzyme recognizes the abasic site, we used oligonucleotides containing a synthetic abasic site at any desired position in the sequence. We prepared oligonucleotides containing an abasic residue such as 2'-deoxyribosylformamide, 2'-deoxyribose, 1',2'-dideoxy ribofuranose or propanediol. Duplex oligonucleotides containing an abasic residue used in this study were cleaved on the 5' side of the abasic site by exonuclease III in spite of the varieties of the bases opposite and adjacent to the abasic site. In addition, we observed that the enzyme cleaved single-stranded oligonucleotides containing an abasic site on the 5' side of the abasic site. These findings suggest that the enzyme may principally recognize the DNA-pocket formed at an abasic site. The indole ring of the tryptophan 212 residue of the exonuclease III is probably intercalated to the abasic site. The tryptophan in the vicinity of the catalytic site is conserved in the type II AP endonuclease from various organisms.

Characterization of mutations induced by 300 and 320 nm UV radiation in a rat fibroblast cell line

The cytotoxic and mutagenic activities of monochromatic ultraviolet light (UV) at four wavelengths (254, 290, 300 and 320 nm) were determined using a rat fibroblast cell line CREF stably infected with a retroviral vector carrying the neo and HSV-tk markers. In this system, mutations can be positively detected as acyclovir-resistant colonies. Although the action spectra for these activities closely fit some of the previously reported spectra for photochemical DNA modifications, erythema, cell killing and mouse skin carcinogenesis, they diverge at 320 nm from the absorption spectrum for DNA and the action spectrum for bacterial inactivation and mutagenesis. Structural comparison of the HSV-tk mutants detected after irradiation with 300 and 320 nm UV revealed (1) CC dimers and C oligomers as predominant targets at both wavelengths; (2) increased incidence of relatively large deletions at 300 nm; and (3) greatly increased frequency of tandem double mutations at both wavelengths and of clustered multiple mutations at 320 nm. These results suggest the involvement of distinct mechanisms specifically operating, or becoming evident, in UV-mediated mutagenesis at these different wavelengths in mammalian cells.