Allele-specific expression of the mouse B-cell surface protein CD72 on T cells

 CD72 is a 45 000 M _r mouse B-cell surface glycoprotein involved in B-cell proliferation and differentiation. Expression of mouse CD72 is thought to be restricted to the B-cell lineage. We recently demonstrated that the monoclonal antibodies K10.6 and B9.689, previously defined as recognizing the mouse lymphocyte alloantigens Ly-19.2 and Ly-32.2, respectively, recognize specific alleles of CD72. Early studies using antibody-mediated cytotoxicity assays demonstrated that K10.6 and B9.689 react with B cells, several T-cell lines, and a subset of peripheral T cells. These findings led us to consider the possibility that CD72 might also be expressed on a subset of T cells. In this report we demonstrate that CD72 is constitutively expressed on a fraction of peripheral T cells isolated from strains of mice expressing the CD72 ^b allele, but not the CD72 ^a or CD72 ^c alleles. Three days after activating T cells with concanavalin A or plate-bound CD3-specific mAb, CD72 is expressed on a larger fraction of peripheral T cells as well as a fraction of thymocytes from mouse strains expressing the CD72 ^b allele. CD72 is expressed on both the CD4⁺ and CD8⁺ thymocyte and peripheral T-cell subsets. No CD72 expression is detected on activated thymocytes or peripheral T cells from mouse strains expressing the CD72 ^a or CD72 ^c alleles. Expression of CD72 ^b on peripheral T cells was confirmed by northern blot analysis demonstrating CD72 mRNA expression. These results demonstrate that CD72 expression is not restricted to B lineage cells in mouse strains expressing the CD72 ^b allele; instead, a population of T lineage cells in these mice also expresses CD72. Received: 18 June 1996 / Revised: 17 September 1996     

Breakdown of middle lamella pectin by ●OH during rapid abscission in Azolla

Azolla, a small water fern, abscises its roots and branches within 30 min upon treatment with various stresses. This study was conducted to test whether, in the rapid abscission that occurs in Azolla, breakdown of wall components of abscission zone cells by ^●OH is involved. Experimentally generated ^●OH caused the rapid separation of abscission zone cells from detached roots and the rapid shedding of roots from whole plants. Electron microscopic observations revealed that ^●OH rapidly and selectively dissolved a well‐developed middle lamella between abscission zone cells and resultantly caused rapid cell separation and shedding. Treatment of abscission zones of Impatiens leaf petiole with ^●OH also accelerated the separation of abscission zone cells. However, compared with that of Azolla roots, accelerative effects in Impatiens were weak. A large amount of ^●OH was cytochemically detected in abscission zone cells both of Azolla roots and of Impatiens leaf petioles. These results suggest that ^●OH is involved in the cell separation process not only in the rapid abscission in Azolla but also in the abscission of Impatiens. However, for rapid abscission to occur, a well‐developed middle lamella, a unique structure, which is sensitive to the attack of ^●OH, might be needed.     

Effects of lithium and potassium on recovery of solute uptake capacity of Acer pseudoplatanus cells after gas-shock

At concentrations of 10-^?3M, Li⁺ inhibits the recovery of solute uptake capacity of Acer pseudoplatanus L. cell suspension cultures after gas-shock (i.e. after rapid exchange of the atmosphere in the culture flasks for ambient air). It also reduces solute uptake capacity of cells having already attained high rates of uptake during recovery from gas-shock. The effects of Li⁺ are much greater in cells which have been cultivated in 7 mM K⁺ solution than in cells cultivated with higher K⁺ levels (19 mM). Increasing K⁺ concentration during recovery reverses the effect of 10^–3M Li⁺ and, with sufficiently high concentrations of K⁺ (≥ 10-^?2M) during recovery, the solute uptake capacity of the fully recovered cells can even become greater than that of the control, at least for the low values of substrate concentration (here sulphate 10-^?5M). Since Li⁺ does not affect the time course of solute uptake measured over 15–20 min, it is thought that it interacts with the synthesis and turnover of the solute uptake machinery of the Acer pseudoplatanus cells. Thermodynamic analysis of the flux data also supports the hypothesis that Li⁺ inhibits the biosynthesis of specific sites of solute permeation, but it does not rule out the possibility that K⁺ interferes rather on the forces acting on the transport of the considered solutes than on the catalytic structures of permeation.     

ERYTHROID AND GRANULOCYTE-MACROPHAGE PROGENITOR CELLS IN PRE-NATAL 'STEEL' (SlJ/SlJ) ANAEMIC MICE

The erythropietin sensitivities of dissociated cell cultures and explanted fragments of fetal livers of congenitally anaemic Sl^J/Sl^J mice, and their normal littermates, have been compared. The erythropoietin responsiveness of Sl^J/Sl^J foetal liver cells is deficient in both types of culture. The maximum liver complement of erythroid colony forming cells (CFUe) occurs on the 16th day of development when ‘normal’ livers contain approximately 6 × 10⁵ erythroid colony forming cells/liver. In Sl^J/Sl^J fetuses the maximum reached is only 1 × 10⁵. Granulocyte-macrophage colony forming cells (CFU_C) in Sl^J/Sl^J fetal livers are also reduced to approximately 60% of normal numbers. Erythroid colony forming cells are also reduced in the spleen and femoral bone marrow of Sl^J/Sl^J mice in the 2–3 days preceding birth. Granulocyte-macrophage colony forming cells are rare in the femoral marrow of pre-natal Sl^J/Sl^J mice, but their production in the Sl^J/Sl^J pre-natal spleen appears unaffected.     

Restriction in vivo

Summary Degradation products of restricted T4 DNA induced filamentation, mutagenesis, and to a lesser extent, synthesis of recA protein in wild type cells but not in recA, lexA or recBC mutants of Escherichia coli. We conclude that the structural damage to the DNA caused by restriction cleavage and exonuclease V degradation can induce SOS functions. Degradation of restricted nonglucosylated T4 DNA by exonuclease V delayed cell division and induced filament formation and mutagenesis in lexA ⁺ but not in lexA ^- cells. Delay of cell division was also dependent upon recA and recBC funtions. Such degradation of DNA also dramatically increased mutagenesis in tif ^- Sfi^- cells at 42°C. The synthesis of recA protein continued in the restricting host after infection by the nonglucosylated T4 phage, but enhanced synthesis is not induced to the extent seen in SOS induced tif ^- cells grown at 42°. We also found that restriction of nonglucosylated T4 was alleviated in UV irradiated cells. The UV induced alleviation of rgl and r _K restriction depended upon post irradiation protein synthesis and was not observed in recA, lexA or recBC mutants.     

Dual origin of melanocytes defined by Sox1 expression and their region‐specific distribution in mammalian skin

Melanocytes are pigment‐producing cells generated from neural crest cells (NCCs) that delaminate from the dorsal neural tube. The widely accepted premise that NCCs migrating along the dorsolateral pathway are the main source of melanocytes in the skin was recently challenged by the finding that Schwann cell precursors are the major cellular source of melanocytes in the skin. Still, in a wide variety of vertebrate embryos, melanocytes are exclusively derived from NCCs. In this study, we show that a NCC population that is not derived from Sox1⁺ dorsal neuroepithelial cells but are derived from Sox1^? cells differentiate into a significant population of melanocytes in the skin of mice. Later, these Sox1^? cells clearly segregate from cells that originated from Sox1⁺ dorsal neuroepithelial cell‐derived NCCs. The possible derivation of Sox1^? cells from epidermal cells also strengthens their non‐neuroepithelial origin.     

The role of the HCR system in the repair of lethal lesions ofBacillus subtilis phages and their transfecting DNA damaged by radiation and alkylating agents

The role of the HCR system in the repair of prelethal lesions induced by UV-light, γ-rays and alkylating agents was studied in theBacillus subtilis SPP1 phage, its thermosensitive mutants (N3, N73 endts ₁) and corresponding infectious DNA. The survival of phages and their transfecting DNA after treatment with UV light is substantially higher inhcr ⁺ cells than inhcr cells, the differences being more striking in intact phages than in their transfecting DNA’s. Repair inhibitors reduce the survival inhcr ⁺ cells: caffeine lowers the survival of UV-irradiated phage SPP1 in exponentially growinghcr ⁺ cells but has no effect on its survival in competenthcr ⁺ cells; acriflavin and ethidium bromide decrease the survival of UV-irradiated SPP1 phage in both exponentially growing and competenthcr ⁺ cells to the level of survival observed inhcr cells; moreover, ethidium bromide lowers the number of infective centres inhcr ⁺ cells of UV-irradiated DNA of the SPP1 phage. Repair inhibitors do not lower the survival of UV-irradiated phages or their DNA inhcr cells. The repair mechanism under study repairs effectively also lesions induced by polyfunctional alkylating agents in transfecting DNA’s ofB. subtilis phages but is not functional with lesions induced by these agents in free phages and lesions caused in phages and their DNA by ethyl methanesulphonate or γ-rays.     

Studies on the effect of NAD(H) on nitrogenase activity in Rhodospirillum rubrum

The effect of NAD(P) and analogs of this nucleotide on nitrogenase activity in Rhodospirillum rubrum has been studied. Addition of NAD⁺ to nitrogen fixing Rsp. rubrum leads to inhibition of nitrogenase. NADP⁺ has the same effect but NADH or analogs modified in the nicotinamide portion do not cause inhibition. In contrast to ammonium ions, addition of NAD⁺ leads to inhibition of nitrogenase in cells that have been N-starved under argon. The inhibitory effect of NAD⁺ is more pronounced at lower light intensities. Addition of NAD⁺ also leads to inhibition of glutamine synthetase, a phenomenon also occurring when “switchoff” is produced by the addition of effectors such as ammonium ions or glutamine. It is also shown that NAD⁺ is taken up by Rsp. rubrum cells.     

Differential MHC expression requirements for positive selection of separate TCR Vb families

 Positive selection has been proposed to be involved in protection from diabetes. We examined positive selection by fluorescence-activated cell sorter analyses in thymocytes of protected and susceptible E-transgenic and non-transgenic NOD mice. Three Vb families showed positive selection in E-transgenic mice. Vb6⁺CD4⁺ and Vb10⁺CD4⁺ thymocytes were found at higher frequencies in both protected NOD-Ea and susceptible NOD-DY mice. The increased frequencies of Vb13⁺CD8⁺ thymocytes were found in protected NOD-Ea mice only, and not in susceptible NOD-DY transgenic mice. These three Vb families were further examined in bone-marrow chimeras between NOD-Ea and non-transgenic NOD mice, where we could examine the contribution of E-expressing bone-marrow-derived cells in positive selection. We find that NOD-Ea→NOD-Ea chimeras have an increased positive selection of Vb13⁺CD8⁺ cells and that positive selection is more efficient when both thymic epithelium and bone-marrow-derived cells express the E molecule. This was also seen for Vb6⁺CD4⁺ cells. However, for Vb6, bone-marrow-derived cells alone were also capable of positive selection. Positive selection of Vb10⁺CD4⁺ cells was restricted to E-expressing thymic epithelium only. For Vb13⁺CD8⁺ cells, we found that positive selection is most efficient with E-expression on both thymic epithelium and bone-marrow-derived cells, although positive selection also occurs with E-positive epithelium only. For Vb6⁺ CD4⁺ cells, the dominating selecting cells are bone-marrow-derived cells, and Vb10⁺CD4⁺ cells seem to be selected exclusively by the thymic epithelium. Thus, the conditions for positive selection seem to vary considerably between different Vb families. Received: 8 April 1998 / Revised: 29 June 1998     

Cytoskeletal association of pp60 : The transforming protein of the rous sarcoma virus

Immunoferritin labelling methods have been employed to examine the distribution of the Rous Sarcoma virus (RSV)-transforming protein pp60^src in the detergent-resistant cytoskeleton of transformed cells. pp60^src was found to be localized on actin microfilaments present in adhesion plaques, at adherens junctions between cells and also in microfilament bundles. This localization is consistent with the hypothesis that some of the morphological effects of transformation result from the interaction in situ of pp60^src with microfilament-bound target proteins.     

Repriming by PrimPol is critical for DNA replication restart downstream of lesions and chain-terminating nucleosides

PrimPol is a DNA damage tolerance enzyme possessing both translesion synthesis (TLS) and primase activities. To uncover its potential role in TLS-mediated IgV_λ hypermutation and define its interplay with other TLS polymerases, PrimPol^?/? and PrimPol^?/?/Polη^?/?/Polζ ^?/? gene knockouts were generated in avian cells. Loss of PrimPol had no significant impact on the rate of hypermutation or the mutation spectrum of IgV_λ. However, PrimPol^?/? cells were sensitive to methylmethane sulfonate, suggesting that it may bypass abasic sites at the IgV_λ segment by repriming DNA synthesis downstream of these sites. PrimPol^?/? cells were also sensitive to cisplatin and hydroxyurea, indicating that it assists in maintaining / restarting replication at a variety of lesions. To accurately measure the relative contribution of the TLS and primase activities, we examined DNA damage sensitivity in PrimPol^?/? cells complemented with polymerase or primase-deficient PrimPol. Polymerase-defective, but not primase-deficient, PrimPol suppresses the hypersensitivity of PrimPol^?/? cells. This indicates that its primase, rather than TLS activity, is pivotal for DNA damage tolerance. Loss of TLS polymerases, Polη and Polζ has an additive effect on the sensitivity of PrimPol^?/? cells. Moreover, we found that PrimPol and Polη-Polζ redundantly prevented cell death and facilitated unperturbed cell cycle progression. PrimPol^?/? cells also exhibited increased sensitivity to a wide variety of chain-terminating nucleoside analogs (CTNAs). PrimPol could perform close-coupled repriming downstream of CTNAs and oxidative damage in vitro. Together, these results indicate that PrimPol's repriming activity plays a central role in reinitiating replication downstream from CTNAs and other specific DNA lesions.     

H-2-linked genes determine the level of the primary in vitro anti-Mls response

The level of cell proliferation and interleukin-2 (IL-2) production observed in an anti-Mls mixed lymphocyte reaction between spleen cells from H-2 compatible, Mls incompatible mouse strains is determined by the H-2 haplotype of the mouse combination. Thus, while AKR (H-2 ^k) spleen cells stimulated strong M1s^a responses in H-2^k responder cells, AKR H-2b spleen cells stimulated no or negligible M1s^a responses in responder cells from H-2 ^bmouse strains. This effect was observed at the levels of IL-2 production and cell proliferation. The magnitude of the response observed using F₁ (H-2 ^k/H-2 ^b) responder cells was found to be a function of stimulator rather than responder cells. The poor stimulatory capacity of AKRH-2 ^bspleen cells was also shown not to be due to the loss of the stimulatory Mls ^aallele during the construction of the congenic strain from AKR and C57BL/6 parental strains. Using stimulator cells from a second series of congenic mice, we found H-2 ^b(strain DLLP) again to represent a poorly Mls^a stimulatory H-2 haplotype. In addition, H-2^q (DBA/1) cells displayed very poor Mls^a stimulatory potential while H-2^d (D1.C) cells were efficient Mls^a stimulators. Again the effect was shown to be at the level of the stimulator cells. In toto, our findings indicate that the H-2 ^kand H-2 ^dhaplotypes encode strong Mls^a stimulatory potential while the H-2 ^band H-2 ^qhaplotypes determine poor Mls^a stimulatory potential in primary in vitro responses, measured as cell proliferation and IL-2 production.Abbreviations used in this paper: CTL cytotoxic T lymphocyte - IL-1 interleukin-1 - IL-2 interleukin-2 - MLR mixed lymphocyte reaction - NMS normal mouse serum     

Over‐expression of the molecular chaperone Hsp104 in Saccharomyces cerevisiae results in the malpartition of [PSI+] propagons

The ability of a yeast cell to propagate [PSI⁺], the prion form of the Sup35 protein, is dependent on the molecular chaperone Hsp104. Inhibition of Hsp104 function in yeast cells leads to a failure to generate new propagons, the molecular entities necessary for [PSI⁺] propagation in dividing cells and they get diluted out as cells multiply. Over‐expression of Hsp104 also leads to [PSI⁺] prion loss and this has been assumed to arise from the complete disaggregation of the Sup35 prion polymers. However, in conditions of Hsp104 over‐expression in [PSI⁺] cells we find no release of monomers from Sup35 polymers, no monomerization of aggregated Sup35 which is not accounted for by the proportion of prion‐free [psi^‐] cells present, no change in the molecular weight of Sup35‐containing SDS‐resistant polymers and no significant decrease in average propagon numbers in the population as a whole. Furthermore, they show that over‐expression of Hsp104 does not interfere with the incorporation of newly synthesised Sup35 into polymers, nor with the multiplication of propagons following their depletion in numbers while growing in the presence of guanidine hydrochloride. Rather, they present evidence that over‐expression of Hsp104 causes malpartition of [PSI⁺] propagons between mother and daughter cells in a sub‐population of cells during cell division thereby generating prion‐free [psi^?] cells.     

Drug-selected complete restoration of superoxide generation in Epstein-Barr virus-transformed B cells from p47 phox -deficient chronic granulomatous disease patients by using a bicistronic retrovirus vector encoding a human multi-drug resistance gene (MDR1) and the p47 phox gene

Chronic granulomatous disease (CGD) is a group of disorders characterized by the failure of phagocytes to produce superoxide. One-third of the cases of CGD in the USA and Europe results from defects in the gene encoding p47 ^phox , a cytoplasmic component of NADPH oxidase for superoxide generation. In this study, we constructed the bicistronic retrovirus vector Ha-MDR-IRES-p47, which carries cDNAs for a human multi-drug-resistance gene (MDR1) and p47 ^phox . The amphotropic retroviral producer cells were generated, and the supernatant of the producer cells was used to transduce Epstein-Barr virus-transformed B (EBV-B) cells, established from B cells of p47 ^phox -deficient CGD patients, as an in vitro model of gene therapy for p47 ^phox -deficient CGD. The transduced cells expressed both P-glycoprotein and p47 ^phox protein, and the expression levels were increased after appropriate vincristine selection. The levels of superoxide production in the vincristine-selected cells were increased to a level similar to normal EBV-B cells. This result suggests that it is possible to achieve 100% correction of the CGD defect in p47 ^phox -deficient EBV-B cells by using the bicistronic vector. This strategy could be employed not only in vitro, but also in vivo, in the gene therapy of a number of inherited diseases. Received: 8 June 1998 / Accepted: 5 August 1998     

Changes of frequency and expression level of CD161 in CD8+ T cells and natural killer T cells in peripheral blood of patients with systemic lupus erythematosus

Immunologic abnormalities of natural killer (NK) cells and T cells play a role in the pathogenesis of systemic lupus erythematosus (SLE). CD161 is expressed on most of the NK cells and on some T cells. The quantities of CD161-expressing cells and expression levels of CD161 were analyzed in T cells and NK cells from patients with SLE compared with normal controls. The expression of CD161 on NK cells, NKT cells, CD4⁺ T cells, and CD8⁺ T cells in peripheral blood from patients with inactive SLE and active SLE, and from the normal controls group were determined using flow cytometry. The frequency and expression level of CD161 in the lymphocyte subsets and its relationship with the quantity of regulatory T cells, anti-double stranded DNA antibody, and the titer of antinuclear antibody were evaluated. Both the percentages of the CD161⁺ subpopulation and the mean fluorescence intensities (MFIs) of CD161 in CD8⁺ T cells and NKT cells decreased significantly in SLE patients compared with normal controls (P < .001). The CD161 expression in CD8⁺ T cells and NKT cells also decreased in the anti-dsDNA (+) group (P < .05). The counts of Treg cells were lower in SLE patients and were weakly correlated with the percentage of the CD161 subpopulation (r = 0.229, P = .016) and the MFIs of CD161 expression in CD8⁺ T cells (r = .232, P = .014). The frequencies and levels of CD161 expression on CD8⁺ T cells and NKT cells were reduced in SLE patients, suggesting that an abnormality of these cells was related to the pathogenesis of SLE.     

A system of alloantigens that selectively identifies lymph-node lymphocytes

The antiserum (BALB.I-H-2 ^j x SWR/7)F₁ anti-I.29 ascites cells, in reaction with B6 lymph-node cells (LNC) in the cytotoxicity assay, defines an alloantigen system called Lna-1* (lymph-node alloantigen-1) which in normal, untreated mice is expressed on the cells of lymph nodes but not of other lymphoid organs. The T- and B-cell populations of lymph nodes evidently include Lna-1u1) subpopulations representing 30–40 percent of the total population. The Lna-1¹ phenotype could be induced on cells of thymus and spleen but not of bone marrow. Congenitally asplenic +/Dh mice have no Lna-1⁺ cells in their lymph nodes, but their LNC can be induced to express Lna-1; this suggests that the spleen is normally required for the differentiation of Lna-1⁺ cells from Lna-1^– precursors. It is not yet known whether thymus is also required for the expression of Lna-1 in lymph nodes. It remains to be seen whether the existence of the Lna-1 + B-cell subpopulation of lymph nodes depends on Lna-1⁺ T cells, and whether the Lna-1⁺ phenotype of B cells may be acquired rather than intrinsic. One hypothesis which is the basis of further study is that there is a T-cell pathway in which noninducible bone-marrow cells become Lna-l-inducible in the thymus, then travel to the spleen, where they are induced to become Lna-1⁺, after which they reside in lymph nodes.Dr. Jan Klein reminded the authors that Lna was previously used in reference to la antigens (David et al. 1973) and was later abandoned.     

31P NMR analysis of intracellular pH of Swiss mouse 3T3 cells: Effects of extracellular Na+ and K+ and mitogenic stimulation

Summary Swiss mouse 3T3 cells grown on microcarrier beads were superfused with electrolyte solution during continuous NMR analysis. Conventional³¹P and¹⁹F probes of intracellular pH (pH _c ) were found to be impracticable. Cells were therefore superfused with 1 to 4mm 2-deoxyglucose, producing a large intracellular, pH-sensitive signal of 2-deoxyglucose phosphate (2DGP). The intracellular incorporation of 2DGP inhibited the Embden-Meyerhof pathway. However, intracellular ATP was at least in part retained and the cellular responsivity to changes in extracellular ionic composition and to the application of growth factors proved intact. Transient replacement of external Na⁺ with choline or K⁺ reversibly acidified the intracellular fluids. Quiescent cells and mitogenically stimulated cells displayed the same dependence of shifts in pH _c on external Na⁺ concentration (c _Na ^o ). pH _c also depended on intracellular Na⁺ concentration (c _Na ^o ). Increasingc _Na ^c by withdrawing external K⁺ (thereby inhibiting the Na,K-pump) caused reversible intracellular acidification; subsequently reducingc _Na ^o produced a larger acid shift in pH _c than with external K⁺ present. Comparison of separate preparations indicated that pH _c was higher in stimulated than in quiescent cells. Transient administration of mitogens also reversibly alkalinized quiescent cells studied continuously. This study documents the feasibility of monitoring pH _c of Swiss mouse 3T3 cells using³¹P NMR analysis of 2DGP. The results support the concept of a Na/H antiport operative in these cells, both in quiescence and after mitogenic stimulation. The data document by an independent technique that cytoplasmic alkalinization is an early event in mitogenesis, and that full activity of the Embden-Meyerhof pathway is not required for the expression of this event.     

Manganese as a calcium probe: Electron paramagnetic resonance and nuclear magnetic resonance spectroscopy of intact cells

Summary When Lettree cells are exposed to Mn²⁺, the cation becomes associated with cells in two ways: in a relatively loose and mobile manner that gives a six-line EPR spectrum designated Mn _b ^*, and in an immobile, relatively tight manner that gives no detectable EPR spectrum, designated Mn _b . Mn _b ^* is probably on the surface of cells; most Mn _b is probably inside cells. NMR measurements of Lettree cell suspensions show two water proton relaxation rates and confirm the existence of cell-associated Mn. Human erythrocytes, on the other hand, bind no Mn²⁺ under these conditions, as judged by EPR and NMR measurements.Virally-treated Lettree cells show an increase in Mn _b (but not in Mn _b ^*). They also show a third water proton relaxation rate.