Cell cycle dependent exposure of a high molecular weight protein on the surface of mouse L cells.

The non-penetrating lactoperoxidase iodination probe has been employed in conjunction with synchronously dividing populations of mouse L cells to identify a high molecular weight protein is preferentially exposed on the L cell surface during G1 phase of the cell cycle. Progression of cells from G1 to S is accompanied by a marked decrease in tha availability of this structure, called band 1, to lactoperoxidase-catalyzed iodination and it remains unavailable until cells re-enter G1. It is suggested that the band 1 polypeptide may be functionally involved in the regulation of L cell growth.     

Density and cell cycle dependence of cell surface proteins in hamster fibroblasts

The large, external, transformation-sensitive (LETS) glycoprotein of hamster fibroblasts, detected by lactoperoxidase-catalyzed iodination, is shown to vary in its accessibility at the cell surface, depending upon the growth state and position in the cell cycle. High levels correlate with arrest in early G1, and these fall after growth stimulation by serum. Very low levels are detectable on mitotic cells.     

Mouse B lymphocyte specific endocytosis and recycling of MHC class II molecules

In B lymphocytes, the processing of exogenous proteins and the subsequent binding of antigenic peptides to class II molecules encoded by the major histocompatibility complex (MHC) occurs most likely within endocytic compartments. To examine the endocytic transport of MHC class II molecules, we used (i) surface iodination followed by internalization, pronase treatment and immunoprecipitation, (ii) in situ iodination of endosomal compartments, and (iii) confocal microscopy to visualize the fate of fluorescence coupled Fab fragments. In murine I-Ak, I-Ek positive B lymphoma cells, cell surface MHC class II molecules are partially protected from pronase digestion after 15 min at 37 degrees C and recycled back to the cell surface within the next 30 min. The fluorescence coupled Fab fragments are delivered to juxtanuclear endocytic compartments in 15 min. In contrast to the murine B cells, L fibroblasts transfected with either I-A alpha beta k or I-E alpha k beta k,d fail to internalize their surface class II molecules. A fraction of class II molecules, however, is still present in endosomal compartments as detected after in situ iodination in L fibroblasts. We conclude that the recipient L fibroblasts lack one or several factors needed for the transport of MHC class II molecules from the cell surface to the endosomes. We suggest that in murine B lymphoma cells, antigenic peptides can gain access to a pool of recycling class II molecules whereas in L cells they meet newly synthesized class II molecules targeted to the endosomal compartments.     

Properties of the PC-1 molecule

The technique of cell-surface iodination, followed by immuno-precipitation withPC-1.1 antiserum, was applied to normal spleen cells and to MOPC-70A BALB myeloma cells. The results indicate that the cell-surface component bearing PC-1 alloantigen has a molecular weight of from 105,000 to 110,000 daltons and does not resemble any constituent of plasma membranes or MuLV-type virus so far categorized by similar methods. The PC-1 specificity of the molecule was confirmed by comparison of the spleen cells of two mouse strains with spleen cells of their respective PC-congenic partner strains. MOPC-70A myeloma cells, but not spleen cells, yield a fainter band in the PC-1 position in controls in which antiserum is omitted, but peptide maps show that this similarly placed band has no relation to the PC-1 molecule.Abbreviations used in this paper are as follows PC plasma cell - B6 C57BL/6 - SDS/PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - a anti - NMS normal mouse serum - MuLV murine leukemia virus - Ig immunoglobulin     

Lactoperoxidase-catalyzed iodination of human IgM. Differences between 7 S IgM and 19 S IgM and between cell surface 7 S IgM and serum 7 S IgM.

We have studied the lactoperoxidase-catalyzed iodination of human IgM and have measured the ratio of radioactivity incorporated into the mu chain to that incorporated into the L chain (i.e. the mu/L ratio). Both 7 S and 19 S IgM were examined. The ratio of radioactivity was found to be larger for 7 S IgM than for 19 S IgM for all four of the monoclonal IgM proteins examined. The data suggest that some tyrosines of the mu chain which are buried and not available for iodination in 19 S IgM become exposed on conversion of 19 S IgM to 7 S IgM. The mu/L ratio for the IgM found on the cell surface of RPMI 8392 cells was significantly smaller than the ratios for all of the five 7 S IgM proteins studied in solution. It appears, therefore, that a portion of the mu chain of the cell surface IgM of the RPMI 8392 cells is buried in the membrane.     

Specific incorporation of host cell surface proteins into budding vesicular stomatitis virus particles

The specific incorporation of cell surface proteins into budding Vesicular Stomatitis Virus (VSV) particles was shown by two approaches. In the first, monolayer cultures of Vero or L cells were labeled by lactoperoxidase-catalyzed iodination and the cells were then infected with VSV. Approximately 2% of the cell surface ¹²⁵1 radioactivity was incorporated into particles which co-purify with normal, infectious virions by both velocity and equilibrium gradient centrifugation and which are precipitated by antiserum specific for the VSV glycoprotein. Control experiments establish that these ¹²⁵I-labeled particles are not cell debris or cellular material which aggregate with or adhere to VSV virions. VSV virions contain only a subset of the 10–15 normal ¹²⁵1-labeled cell surface polypeptides resolved by SDS gel electrophoresis; VSV grown in L cells and Vero cells incorporate different host polypeptides. In a second approach, Vero cells were labeled with ³⁵S-methione, then infected with VSV. Two predominant host polypeptides (molecular weights 110,000 and 20,000) were incorporated into VSV virions. These proteins, like VSV G protein, are exposed to the surface of the virion. They co-migrate with the major incorporated ¹²⁵1 host polypeptides. These host proteins are present in approximately 10 and 80 copies, respectively, per virion. Specific incorporation of host polypeptides into VSV virions does not require the presence of viral glycoprotein. This was shown by use of a ts VSV mutant defective in maturation of VSV G protein to the cell surface. Budding from infected cells are noninfectious particles which contain all the viral proteins except for G; these particles contain the same proportion and spectrum of ¹²⁵1-labeled host surface polypeptides as do wild-type virions. These results extend previous conclusions implicating the submembrane viral matrix protein, or the viral nucleocapsid, as being of primary importance in selecting cell surface proteins for incorporation into budding VSV virions.     

Cell surface constituents of sarcoma 180 ascites tumor cells

The cell surface protein components of Sarcoma 180 ascites tumor cells have been investigated by a combination of plasma membrane isolation techniques and lactoperoxidase iodination. For plasma membrane isolation cells were homogenized in the presence or absence of Zn²⁺ and fractionated by sucrose density gradient centrifugation or a two-phase partition to give large membrane fragments or membrane envelopes. Membrane purification was monitored by phase contrast microscopy and chemical and enzyme marker assays. The membrane preparations were analyzed by acrylamide gel electrophoresis in sodium dodecylsulfate. Each preparation showed a common protein pattern of about 15 bands ranging in molecular weights from 33 000 to >300000. Two carbohydrate-containing bands were also present in all preparations. Membranes prepared with Zn²⁺ were much less fragmented and showed much greater amounts of three high molecular weight components than those prepared in the absence of Zn²⁺. This might suggest a role for these components in membrane stabilization.The tumor cells were also subjected to iodination with lactoperoxidase, followed by membrane isolation and acrylamide gel electrophoresis in sodium dodecylsulfate in order to identify polypeptides accessible to the cell surface. The major radioactive band coincided with the major carbohydrate-containing band, presumably a surface glycoprotein. A second carbohydrate-containing band showed variable labeling behavior between different cell preparations. This material had a high molecular weight, as indicated by both acrylamide gel electrophoresis and gel permeation chromatography in dodecylsulfate. Several other components are labeled to a lesser extent in the intact cell.     

Characterization of the mycoplasma membrane proteins. VI. Composition and disposition of proteins in membranes from aging Mycoplasma hominis cultures.

Membranes of Mycoplasma hominis cells from cultures progressing from the mid to the end of the logarithmic phase of growth became richer in protein, poorer in phospholipids and cholesterol, heavier in density, and more viscous as determined by EPR. The membrane-bound ATPase activity declined steeply. Electrophoretic analysis failed to show marked changes in membrane protein composition on aging, apart from an increase in the staining intensity of one protein band (Mr approximately 130 000) concomitant with a decrease in the staining intensity of several minor protein bands of high molecular weight. To test for possible changes in the disposition of the various membrane proteins on aging of cultures, a comparison was made of the susceptibility of membrane proteins of intact cells and isolated membranes to trypsinization and lactoperoxidase-mediated iodination. The iodination values and the percent of membrane protein released by trypsinization of intact cells were similar in cells from cultures of different ages, indicating no significant changes in the organization of the proteins on the outer surface. On the other hand, trypsinization and iodination of isolated membranes were found to be most markedly affected by the culture age, indicating significant changes in the organization of the proteins on the inner membrane surface. Thus, the iodination values of isolated membranes decreased by almost two fold, while the percentage of protein released from the membrane by trypsin increased from 28% to 50% during the experimental period. It is suggested that aging in M. hominis cultures is accompanied by a continuous increase in the packing density of the protein molecules on the inner surface of the cell membrane.     

The relationship of DNA and chromosome damage to survival of synchronized X-irradiated L5178Y cells. I. Initial damage

We investigated the role of initial DNA and chromosome damage in determining the radiosensitivity difference between the variant murine leukemic lymphoblast cell lines L5178Y-S (sensitive) and L5178Y-R (resistant) and the difference in cell cycle-dependent variations in radiosensitivity of L5178Y-S cells. We measured initial DNA damage (by the neutral filter elution method) and chromosome damage (by the premature chromosome condensation method) and compared them with survival (measured by cloning) for both cell lines synchronized in G1 or G2 phase of the cell cycle (by centrifugal elutriation) and irradiated with low doses of X rays (up to 10 Gy). The initial yield of DNA and chromosome damage in G2 L5178Y-S cells was almost twice that in G1 L5178Y-S cells and G1 or G2 L5178Y-R cells. In all cases DNA damage expressed as relative elution corresponded with chromosome damage (breaks in G1 chromosomes, breaks and gaps in G2 chromosomes). Also we found that the initial DNA and chromosome damage did not determine cell age-dependent radiosensitivity variations in L5178Y-S cells, as there was less initial damage in the more sensitive G1 phase than in the G2 phase. L5178Y-R cells showed only small changes in survival or initial yield of DNA and chromosome damage throughout the cell cycle. Because survival and initial damage in sensitive and resistant cells irradiated in G2 phase correlated, the difference in radiosensitivity between L5178Y-S and L5178Y-R cells might be determined by initial damage in G2 phase only.     

Maturation of viral proteins in cells infected with temperature-sensitive mutants of vesicular stomatitis virus.

Maturation of viral proteins in cells infected with mutants of vesicular stomatitis virus was studied by surface iodination and cell fractionation. The movement of G, M, and N proteins to the virion bud appeared to be interdependent. Mutations thought to be in G protein prevented its migration to the cell surface, allowed neither M nor N protein to become membrane bound, and blocked formation of viral particles. Mutant G protein appeared not to leave the endoplasmic reticulum at the nonpermissive temperature, but this defect was partially reversible. In cells infected with mutants that caused N protein to be degraded rapidly or prevented its assembly into nucleocapsids, M protein did not bind to membranes and G protein matured to the cell surface, but never entered structures with the density of virions. Mutations causing M protein to be degraded prevented virion formation, and G protein behaved as in cells infected by mutants in N protein. These results are consistent with a model of virion formation involving coalescence of soluble nucleocapsid and soluble M protein with G protein already in the plasma membrane.     

A topoisomerase II-dependent checkpoint in G2-phase plant cells can be bypassed by ectopic expression of mitotic cyclin B2

DNA topoisomerase II is required for mitotic chromosome condensation and segregation. Here we characterize the effects of inhibiting DNA topoisomerase II activity in plant cells using the non-DNA damaging topoisomerase II inhibitor ICRF-193. We report that ICRF-193 abrogated chromosome condensation in cultured alfalfa (Medicago sativa L.) and tobacco (Nicotiana tabaccum L.) mitoses and led to bridged chromosomes at anaphase. Moreover, ICRF-193 treatment delayed entry into mitosis, increasing the frequency of cells having a pre-prophase band of microtubules, a marker of late G2 and prophase, and delaying the activation of cyclin-dependent kinase. These data suggest the existence of a late G2 checkpoint in plant cells that is activated in the absence of topoisomerase II activity. To determine whether the checkpoint-induced delay was a result of reduced cyclindependent kinase activity, mitotic cyclin B2 was ectopically expressed. Cyclin B2 bypassed the ICRF-193-induced delay before mitosis, and correspondingly, reduced the frequency of interphase cells with a pre-prophase band. These data provide evidence that plant cells possess a topoisomerase II-dependent G2 cell cycle checkpoint that transiently inhibits mitotic CDK activation and entry into mitosis, and that is overridden by raising the level of CDK activity through the ectopic expression of a plant mitotic cyclin.     

Identification of surface autoantigens which appear during spermatogenesis

Autoantigens that appear during spermatogenesis in the rabbit were identified using immunoadsorbent chromatography and SDS-PAGE. To identify cell-surface proteins, samples of freshly isolated, staged cells were labeled by the lactoperoxidase or Iodo-Gen iodination procedure and run on SDS-PAGE. Autoradiograms of the stained, dried gels were prepared. By correlating the band patterns in the SDS gels of immunocolumn and surface-labeled samples with the band patterns in the autoradiograms, it was possible to show when the autoantigenic proteins appeared on the cell surface. To further support the identification of membrane autoantigens, surface-labeled, staged cell samples were lysed in Triton X-100 and immunoprecipitated with antitestis cell autoantisera. Three types of autoantigens have been identified: (1) late class antigens that are present only on late spermatids and epididymal spermatozoa, but are intracellular in early stages, (2) early class antigens which occur on the surface of pachytene spermatocytes and are present throughout subsequent stages of development, and (3) early class, transient antigens, which appear on spermatogenic cells but are not present on epididymal spermatozoa.     

Calcium ion-dependent proliferation of L1210 cells in culture

Maximum growth of L1210 cells in culture required the presence of free extracellular calcium ions. Reducing the free extracellular calcium ion concentration with EGTA served to decrease the growth rate of the cells. The decrease in cell growth was not due to cell death but rather due to the "pile-up" of the L1210 cells in the GO/Gl phase of the cell cycle. With the readdition of excess calcium ions, there was a lag period of 3 to 6 hours before the L1210 cells initiated DNA synthesis or transited from the G0/G1 phase to S-phase. Cells enriched for S and G2/M phase by elutriation and which were incubated in EGTA-containing culture medium, continued through the cell cycle and were blocked in GO/Gl. These data indicate that the proliferation of L1210 cells in culture requires a calcium ion-dependent process to allow movement from the G0/G1 to S-phase of the cell cycle.     

Characterization of the Highly Autolytic Lactococcus lactis subsp. cremoris Strains CO and 2250

Two highly autolytic Lactococcus lactis subsp. cremoris strains (CO and 2250) were selected and analyzed for their autolytic properties. Both strains showed maximum lysis when grown in M17 broth containing a limiting concentration of glucose (0.4 to 0.5%) as the carbohydrate source. Lysis did not vary greatly with pH or temperature but was reduced when strains were grown on lactose or galactose. Growth in M17 containing excess glucose (1%) prevented autolysis, although rapid lysis of L. lactis subsp. cremoris CO did occur in the presence of 1% glucose if sodium fluoride (an inhibitor of glycolysis) was added to the medium. Maximum cell lysis in a buffer system was observed early in the stationary phase, and for CO, two pH optima were observed for log-phase and stationary-phase cells (6.5 and 8.5, respectively). Autolysins were extracted from the cell wall fraction of each strain by using either 4% sodium dodecyl sulfate (SDS), 6 M guanidine hydrochloride, or 4 M lithium chloride, and their activities were analyzed by renaturing SDS-polyacrylamide gel electrophoresis on gels containing Micrococcus luteus or L. lactis subsp. cremoris CO cells as the substrate. More than one lytic band was observed on each substrate, with the major band having an apparent molecular mass of 48 kDa for CO. Each lytic band was present throughout growth and lysis. These results suggest that at least two different autolytic enzymes are present in the autolytic L. lactis subsp. cremoris strains. The presence of the lactococcal cell wall hydrolase gene, acmA (G. Buist, J. Kok, K. J. Leenhouts, M. Dabrowska, G. Venema, and A. J. Haandrikman, J. Bacteriol. 177:1554-1563, 1995), in strains 2250 and CO was confirmed by Southern hybridization. Analysis of an acmA deletion mutant of 2250 confirmed that the gene was involved in cell separation and had a role in cell lysis.     

The relationship of DNA and chromosome damage to survival of synchronized X-irradiated L5178Y cells. II. Repair

The purpose of this study was to investigate the role of DNA and chromosome repair in determining the difference in radiosensitivity between a radiosensitive murine leukemic lymphoblastoid cell line, L5178Y-S, and its radioresistant counterpart, L5178Y-R. Populations of cells in the G1 or G2 phase of the cell cycle were obtained by centrifugal elutriation and irradiated with X-ray doses up to 10 Gy and allowed to repair at 37 degrees C for various periods. The kinetics of DNA double-strand break repair was estimated using the DNA neutral filter elution method, and the kinetics of chromosome repair was measured by premature chromosome condensation. L5178Y-S cells exhibited decreased repair rates and limited repair capacity at both the DNA and chromosome level in both G1 and G2 phases when compared to L5178Y-R cells. For the repair-competent L5178Y-R cells, the rate of DNA repair was similar in G1 and G2 cells and exhibited both fast and slow components. While the kinetics of chromosome break repair in G1 cells was similar to that of DNA repair, chromosome repair in G2 cells had a diminished fast component and lagged behind DNA repair in terms of fraction of damage repaired. Interestingly, concomitant with a diminished repair capacity in L5178Y-S cells, the number of chromatid exchanges in G2 cells increased with time, whereas it remained constant with repair time in L5178Y-R cells. These results suggest that the basis for the exceptional radiosensitivity of L5178Y-S cells is a defect in the repair of both DNA double-strand breaks and chromosome damage.     

A Topoisomerase II-Dependent Checkpoint in G2-Phase Plant Cells Can Be Bypassed by Ectopic Expression of Mitotic Cyclin B2

DNA topoisomerase II is required for mitotic chromosome condensation and segregation. Here we characterize the effects of inhibiting DNA topoisomerase II activity in plant cells using the non-DNA damaging topoisomerase II inhibitor ICRF-193. We report that ICRF-193 abrogated chromosome condensation in cultured alfalfa (Medicago sativa L.) and tobacco (Nicotiana tabaccum L.) mitoses and led to bridged chromosomes at anaphase. Moreover, ICRF-193 treatment delayed entry into mitosis, increasing the frequency of cells having a pre-prophase band of microtubules, a marker of late G2 and prophase, and delaying the activation of cyclin-dependent kinase. These data suggest the existence of a late G2 checkpoint in plant cells that is activated in the absence of topoisomerase II activity. To determine whether the checkpoint-induced delay was a result of reduced cyclin-dependent kinase activity, mitotic cyclin B2 was ectopically expressed. Cyclin B2 bypassed the ICRF-193-induced delay before mitosis, and correspondingly, reduced the frequency of interphase cells with a pre-prophase band. These data provide evidence that plant cells possess a topoisomerase II-dependent G2 cell cycle checkpoint that transiently inhibits mitotic CDK activation and entry into mitosis, and that is overridden by raising the level of CDK activity through the ectopic expression of a plant mitotic cyclin.

Key Words:

Plant cyclin B2, Topoisomerase II, ICRF-193, G2 checkpoint, Microtubules     

Sequential receptor cascade for coagulation proteins on monocytes. Constitutive biosynthesis and functional prothrombinase activity of a membrane form of factor V/Va

Cells of monocytic differentiation can promote proteolytic activation of factor X following binding to the adhesive receptor Mac-1. We now show that the product, factor Xa, binds to a second receptor on these cells in a Ca2+-dependent reaction. Functionally, this results in the capacity to convert prothrombin to thrombin. The factor Xa receptor was identified by monoclonal antibody (7G12) reactive with plasma factor V/Va, but selected for reactivity with THP-1 cells. It reacted with 71.2 +/- 10.1% of monocytes, bound 153,600 +/- 33,500 sites/THP-1 cell, blocked binding of 125I-factor Xa, inhibited formation of thrombin, and immunoprecipitated 125I-factor Xa chemically cross-linked to its receptor on THP-1 cells. Following surface iodination or intrinsic labeling of THP-1 cells, antibody 7G12 immunoprecipitated a 74-kDa molecular species, similar to plasma factor Va light chain. Thus, monocytes and monocyte-like cells synthesize and express a factor V/Va-like receptor for factor Xa and organize a functional prothrombinase complex. The simultaneous membrane coexpression of a factor X receptor (Mac-1) and a factor Xa receptor as demonstrated by two-color flow cytofluorometric analysis of monocytes or THP-1 cells is consistent with a sequential receptor cascade for coordinated molecular assembly of coagulation proteins on specialized cells.     

Monensin-dependent and -independent mechanisms of cell-matrix adhesion

Attachment and spreading of human FL cells on a subcellular matrix (SCM) preparation made by treating confluent cell monolayers with deoxycholate are insensitive to the presence of monensin. However, if the cell suspension is surface-iodinated prior to adhesion using the LPO/H2O2 system, cell spreading on SCM is inhibited by 1 microM monensin. The suggested interpretation is that cell surface components required for cell spreading on SCM are inactivated by iodination and need replacement from intracellular reserves by a monensin-sensitive pathway. This pathway is not required in the absence of iodination when sufficient surface components (or a monensin-independent pathway of surface expression) are available. Support for this interpretation is obtained by means of double-iodination experiments in which surface-labelled cells adhere and spread, are detached and labelled a second time and then allowed to adhere again to SCM. Cell spreading in the second case is inhibited by approximately 80%, suggesting that both previously expressed and newly recruited receptors are inactivated.     

Characterization of the mycoplasma membrane proteins. VI. Composition and disposition of proteins in membranes from aging Mycoplasma hominis cultures

Membranes of Mycoplasma hominis cells from cultures progressing from the mid to the end of the logarithmic phase of growth became richer in protein, poorer in phospholipids and cholesterol, heavier in density, and more viscous as determined by EPR. The membrane-bound ATPase activity declined steeply. Electrophoretic analysis failed to show marked changes in membrane protein composition on aging, apart from an increase in the staining intensity of one protein band ($\text{M}{}_{\mathrm{<mtext>r</mtext>}}\text{≈ 130 000}$) concomitant with a decrease in the staining intensity of several minor protein bands of high molecular weight.To test for possible changes in the disposition of the various membrane proteins on aging of cultures, a comparison was made of the susceptibility of membrane proteins of intact cells and isolated membranes to trypsinization and lactoperoxidase-mediated iodination. The iodination values and the percent of membrane protein released by trypsinization of intact cells were similar in cells from cultures of different ages, indicating no significant changes in the organization of the proteins on the outer membrane surface. On the other hand, trypsinization and iodination of isolated membranes were found to be most markedly affected by the culture age, indicating significant changes in the organization of the proteins on the inner membrane surface. Thus, the iodination values of isolated membranes decreased by almost two fold, while the percentage of protein released from the membrane by trypsin increased from 28% to 50% during the experimental period. It is suggested that aging in M. hominis cultures is accompanied by a continuous increase in the packing density of the protein molecules on the inner surface of the cell membrane.     

RG108对肺腺癌A549细胞增殖、凋亡及RASSF1A基因表达的影响

目的探讨DNA甲基转移酶抑制剂RG108对人肺腺癌细胞株A549增殖、凋亡以及对RASSF1A（Ras as-sociation domain proteinfamily1）基因启动子区域甲基化状态、表达的影响。方法用20μmol/L的RG108对A549细胞进行化学干预72h,用MTT法检测细胞生长抑制率;流式细胞术检测细胞周期以及凋亡情况;RT-PCR观察RASSF1A基因mRNA水平变化;Western blot检测RASSF1A蛋白的表达;甲基化特异性PCR（MS-PCR）检测RASSF1A基因启动子区域甲基化状态的改变。结果经RG108干预72h后,A549细胞的抑制率为17.2±0.43%,细胞周期阻滞于G0/G1期,并引起细胞凋亡。RT-PCR和Western blot结果显示在干预组细胞中分别出现RASSF1A基因的DNA条带（329bp）和蛋白质条带（39kD）,而对照组中无相应条带出现。RASSF1A基因启动子区域由甲基化状态转变为非甲基化状态。结论RG108可使RASSF1A基因启动子区域去甲基化,并通过该机制诱导RASSF1A基因在人肺腺癌细胞株A549中表达。