Cutting edge: identification of E-cadherin as a ligand for the murine killer cell lectin-like receptor G1

The killer cell lectin-like receptor G1 (KLRG1) is expressed by NK cells and by T cells. In both humans and mice, KLRG1 identifies Ag-experienced T cells that are impaired in their proliferative capacity but are capable of performing effector functions. In this study, we identified E-cadherin as a ligand for murine KLRG1 by using fluorescently labeled, soluble tetrameric complexes of the extracellular domain of the murine KLRG1 molecule as staining reagents in expression cloning. Ectopic expression of E-cadherin in B16.BL6 target cells did not affect cell-mediated lysis by lymphokine-activated NK cells and by CD8 T cells but inhibited Ag-induced proliferation and induction of cytolytic activity of CD8 T cells. E-cadherin is expressed by normal epithelial cells, Langerhans cells, and keratinocytes and is usually down-regulated on metastatic cancer cells. KLRG1 ligation by E-cadherin in healthy tissue may thus exert an inhibitory effect on primed T cells.     

Ultrastructure of the kidney of a South American caecilian,Typhlonectes compressicaudus (Amphibia,Gymnophiona)

Summary The ultrastructure of the distal nephron, the collecting duct and the Wolffian duct was studied in a South American caecilian, Typhlonectes compressicaudus (Amphibia, Gymnophiona) by transmission and scanning electron microscopy (TEM, SEM). The distal tubule (DT) is made up of one type of cell that has a well-developed membrane labyrinth established both by interdigitating processes and by interlocking ramifications. The processes contain large mitochondria, the ramifications do not. The tight junction is shallow and elongated by a meandering course. The connecting tubule (CNT) is composed of CNT cells proper and intercalated cells, both of which are cuboidal in shape. The CNT cells are characterized by many lateral interlocking folds. The intercalated cells have a dark cytoplasm densely filled with mitochondria. Their apical cell membrane is typically amplified by microplicae beneath which a layer of globular particles (studs) is found. The collecting duct (CD) is composed of principal cells and intercalated cells, again both cuboidal in shape. The CD epithelium is characterized by dilated intercellular spaces, which are often filled with lateral microfolds projecting from adjacent principal cells. The apical membrane is covered by a prominent glycocalyx. The intercalated cells in the CD are similar to those in the CNT. The Wolffian duct (WD) has a tall pseudostratified epithelium established by WD cells proper, intercalated cells and basal cells. The WD cells contain irregular-shaped dense granules located beneath the apical cell membrane. The intercalated cells of the WD have a dark cytoplasm with many mitochondria; their nuclei display a dense chromatin pattern.Research fellow of the Alexander von Humboldt Foundation     

CD4+ T cells engrafted with a recombinant immunoreceptor efficiently lyse target cells in a MHC antigen- and Fas-independent fashion.

T cells engrafted by a recombinant immunoreceptor with predefined Ag specificity can efficiently lyse Ag-positive target cells in a MHC Ag-independent manner. It is yet unresolved how receptor-grafted CD4+ T cells contribute to MHC Ag-independent target cell lysis. To address this issue, we grafted isolated CD8+ and CD4+ T cells from the peripheral blood with recombinant anti-carcinoembryonic Ag and anti-CD30 receptors, respectively. Cytotoxicity analyses revealed that grafted CD4+ T cells exert cytolysis of Ag-positive target cells with an efficiency similar to that of grafted CD8+ T cells. Lysis by receptor-grafted CD4+ T cells is Ag specific and is inhibited by blocking the target Ag or the Ag binding site of the recombinant receptor. Both Fas-sensitive and Fas-resistant target cells are lysed with equal efficiency, and lysis of Fas-sensitive target cells is not blocked by an anti-Fas ligand Ab, indicating that cytolysis by receptor-grafted CD4+ T cells is independent of the Fas pathway. We conclude that cytolysis by CD4+ T cells equipped with a recombinant immunoreceptor is MHC Ag and Fas independent and likely to be mediated by perforin present in receptor-grafted CD4+ T cells.     

Guanylate cyclase and cyclic guanosine 3':5'-monophosphate phosphodiesterase activities and cyclic guanosine 3':5'-monophosphate levels in normal and transformed fibroblasts in culture.

To investigate the role of guanosine 3':5'-monophosphate (cyclic GMP) in cultured cells we have measured guanylate cyclase and cyclic GMP phosphodiesterase activities and cyclic GMP levels in normal and transformed fibroblastic cells. Guanylate cyclase activity is found almost exclusively in the particulate fraction of normal rat kidney (NRK) and BALB 3T3 cells. Enzyme activity is stimulated 3- to 10-fold by treatment with the detergent Lubrol PX. However, enhancement of guanylate cyclase by fibroblast growth factor could not be demonstrated under a variety of assay conditions. In both NRK and BALB 3T3 cells guanylate cyclase activity is low during logarithmic growth and increases as the cells crowd together and growth slows. Guanylate cyclase activity is undetectable in homogenates of NRK cells transformed by the Kirsten sarcoma virus (KNRK cells) either in the presence or absence of Lubrol PX. Guanylate cyclase activity is also greatly decreased in NRK cells transformed by Moloney, Schmidt-Ruppin, or Harvey viruses. BALB 3T3 cells transformed by RNA viruses (Kirsten, Harvey, or Moloney), by a DNA virus (SV40), by methylcholanthrene, or spontaneously, all have diminished but readily detectable guanylate cyclase activity. Cyclic GMP phosphodiesterase activity is found predominately in the soluble fraction of NRK cells. This activity increases slightly as NRK cells enter the stationary growth phase. Cyclic GMP phosphodiesterase activity is undetectable in two clones of KNRK cells under a variety of assay conditions, and is decreased relative to the level present in NRK cells in a third KNRK clone. However, both Moloney- and Schmidt-Ruppin-transformed NRK cells have a phosphodiesterase activity similar to that found in NRK cells. Boiled supernatant from both NRK and KNRK cells is observed to appreciably enhance the activity of activator-deficient phosphodiesterase from bovine heart. This result indicates that the absence of cyclic GMP phosphodiesterase activity in KNRK cells is not due to a loss of the phosphodiesterase activator. The intracellular concentration of cyclic GMP is found to be very low in transformed NRK cells when compared to levels measured in confluent NRK cells. The low levels of cyclic GMP in transformed NRK cells reflect the greatly decreased guanylate cyclase activity observed in these cells. These results do not appear to support the suggestion that cyclic GMP promotes the growth of fibroblastic cells.     

Enhanced expression and shedding of the transmembrane chemokine CXCL16 by reactive astrocytes and glioma cells

The transmembrane chemokine CXCL16 is expressed by dendritic and vascular cells and mediates chemotaxis and adhesion of activated T cells via the chemokine receptor CXCR6/Bonzo. Here we describe the expression and shedding of this chemokine by glioma cells in situ and in vitro. By quantitative RT-PCR and immunohistochemistry, we show that CXCL16 is highly expressed in human gliomas, while expression in normal brain is low and mainly restricted to brain vascular endothelial cells. In cultivated human glioma cells as well as in activated mouse astroglial cells, CXCL16 mRNA and protein is constitutively expressed and further up-regulated by tumour necrosis factor alpha (TNFalpha) and interferon-gamma (IFNgamma). CXCL16 is continuously released from glial cells by proteolytic cleavage which is rapidly enhanced by stimulation with phorbol-12-myristate-13-acetate (PMA). As shown by inhibitor studies, two distinct members of the disintegrin-like metalloproteinase family ADAM10 and 17 are involved in the constitutive and PMA-induced shedding of glial CXCL16. In addition to the chemokine, its receptor CXCR6 could be detected by quantitative RT-PCR in human glioma tissue, cultivated murine astrocytes and at a lower level in microglial cells. Functionally, recombinant soluble CXCL16 enhanced proliferation of CXCR6-positive murine astroglial and microglial cells. Thus, the transmembrane chemokine CXCL16 is expressed in the brain by malignant and inflamed astroglial cells, shed to a soluble form and targets not only activated T cells but also glial cells themselves.     

Resistance to tumor growth mediated by Listeria monocytogenes. Destruction of experimental malignant melanoma by LM-activated peritoneal and lymphoid cells.

A murine experimental model of nonspecific tumor destruction mediated by cells activated by Listeria monocytogenes (LM) is described. B16 melanoma growth is prevented or suppressed in the syngeneic host when tumor cells are inoculated in contact with viable LM. In vitro, cultured B16 cells are destroyed by LM immune peritoneal or splenic cells in the presence of the bacterial antigen(s). Activation of LM immune cells in vitro is immunologically specific. Replacement of LM by sheep red blood cells or bovine serum albumin in the in vitro cultures aborts the cytotoxic effect. Further, no tumor cell killing is obtained when thioglycollate-induced or normal peritoneal cells are substituted for LM immune cells in the in vitro cultures. Normal spleen cells in the presence of LM are weakly cytotoxic for B16 cells. Normal peritoneal cells plus LM or LM alone are not. Elimination of thymus derived "T" cells by anti-theta C3H or rabbit anti-mouse brain serum (RAMB) abrogated the cytotoxic effect. Therefore, LM-induced tumor destruction probably occurs through nonspecific mechanism(s) consequent to activation of host "T" cells by specific immune reactivity to LM antigen(s).     

IL-17 production is dominated by gammadelta T cells rather than CD4 T cells during Mycobacterium tuberculosis infection

IL-17 is a cytokine produced by T cells in response to IL-23. Recent data support a new subset of CD4 Th cells distinct from Th1 or Th2 cells that produce IL-17 and may contribute to inflammation. In this study, we demonstrate that, in naive mice, as well as during Mycobacterium tuberculosis infection, IL-17 production is primarily from gammadelta T cells and other non-CD4(+)CD8(+) cells, rather than CD4 T cells. The production of IL-17 by these cells is stimulated by IL-23 alone, and strongly induced by the cytokines, including IL-23, produced by M. tuberculosis-infected dendritic cells. IL-23 is present in the lungs early in infection and the IL-17-producing cells, such as gammadelta T cells, may represent a central innate protective response to pulmonary infection.     

Regulation of contact sensitivity reaction: contrasuppressor T cells and contrasuppressor factor downregulate efferent T suppressor cells.

Contact sensitivity (CS) reaction mediated by CD 4+8- Th 1 cells is under the control of several antigen-specific regulatory lymphocytes. Reaction is downregulated at the induction stage by T afferent suppressor T cells (Ts-aff) that prevent immunization and at the effector stage by efferent T suppressor cells (Ts-eff) that made immune Th 1 cells inoperative. Both suppressor cells are CD 4-8+ Th 1 effector cells and are protected against the suppressive action of Ts-eff cells by CD 4+8- contrasuppressor T cells (Tcs). As has been already shown there are also regulatory interactions between regulatory cells themselves and Ts-aff cells in addition to their effect on precursors of Th 1 cells, also preventing the induction of Ts-eff cells. The present experiments extend these findings and demonstrate that Ts-eff cells are also under negative control of Tcs lymphocytes. Likewise, antigen-specific factor produced by contrasuppressor T-T cell hybridoma, used in lieu of Tcs cells, impedes the activation of Ts-eff cells. In both cases regulation is aimed at the precursors of Ts-eff cells. Our experiments demonstrate that the outcome of immunization is dependent not only on the balance between immune cells and regulatory cells, but also on interactions between regulatory cells themselves.     

Zinc exchange by blood cells in nearly physiologic standard conditions

Determination of zinc concentrations in white blood cells has been used to establish zinc deficiency. During pathological conditions changes in zinc concentrations in these blood cells were observed. However, these investigations were hampered by the low amount of zinc in this form per mL blood. Earlier we demonstrated that, in the case of zinc deficiency, the uptake of zinc was increased, using the in vitro exchange of zinc by the various blood cells with extracellular zinc labeled with⁶⁵Zn in fairly physiologic conditions. In case of inflammation, no increase in zinc uptake by erythrocytes was seen, indicating that this method probably can be used to differentiate real from apparent zinc deficiency. Only during the first days of the inflammatory process, probably representing the redistribution phase during which zinc moves from the serum to the liver, a small increase in in vitro zinc uptake was seen in mononuclear cells (MNC) and polymorphonuclear cells (PMNC). Earlier papers raised some questions; e.g., is the uptake part of an exchange process and can the efflux of zinc by the cells be measured by the same method; what is the influence of time on the process of zinc uptake; what is the magnitude of the uptake of zinc by the cells compared to the zinc concentration in the cells; and, what is the influence of temperature on the uptake of zinc? In the present study, the influence of incubation time and temperature on the uptake of zinc by human and rat blood cells and on the release of zinc by rat blood cells was studied. At least three phases of uptake of zinc in the various cells were found by varying the incubation time—a fast phase during the first half hour, probably caused by an aspecific binding of zinc on or in the cell membrane; a second fast uptake between 60–330 min, probably caused by an influx of zinc in the cell as part of the exchange process of zinc; and a slow third phase after 5.5 h, in which probably the in- and efflux of the rapidly exchangeable intracellular pool is more or less equilibrated. For mononuclear cells, polymorphonuclear cells, and erythrocytes of rats, the rapidly exchangeable intracellular pool is 40%, 53%, and 10%, respectively, of the total zinc content of the cells. This study is also performed in human cells; in human cells the exchangeable pool of mononuclear cells and erythrocytes is 17 and 3.5% of the total zinc content of the cells, respectively. The efflux of zinc by blood cells can be measured by the same method. Both the uptake and the loss of zinc by blood cells of rats were compared and are of the same magnitude, indicating that the in vitro uptake of zinc described elsewhere is part of an exchange process. Increasing temperature during incubation procedures results in an increase of zinc uptake by human blood cells, even at high temperatures of 41°C, although there are gradual differences between the various blood cells. Both the in- and efflux of zinc by blood cells are very small at 4°C.     

Mutual regulation between B7-1 (CD80) expressed on T cells and IL-4.

We have used T cells from B7-1-deficient TCR transgenic DO11.10 mice to demonstrate a functional role for B7-1 on T cells. B7-1-deficient DO11.10 T cells produce more IL-4 than wild-type DO11.10 T cells, suggesting that B7-1 expressed by T cells regulates the differentiation of IL-4-producing cells. In addition, we found that IL-4 inhibits B7-1 expression by wild-type DO11.10 T cells. Our results suggest that there is a reciprocal relationship between B7-1 expressed on T cells and IL-4 production, which results in a modulatory feedback loop. When high levels of IL-4 are produced by T cells, B7-1 expression by T cells is inhibited, which allows amplification of IL-4 production by these T cells. When low levels of IL-4 are produced by T cells, B7-1 expression by these T cells is increased, and a further reduction in IL-4 production follows. However, in addition to being influenced by IL-4, B7-1 expression by T cells is affected by peptide concentration and by B7 costimulation from APCs. The studies presented here demonstrate that B7-1 on T cells as well as on APCs regulates IL-4 production. However, whereas B7-1 expression on APCs can promote IL-4 production, IL-4 production is inhibited by B7-1 on T cells.     

Effect of carbon source during growth on sensitivity of Pseudomonas fluorescens to actinomycin D.

Sensitivity to actinomycin D(AD) varies in Pseudomonas fluorescens cells grown in glucose or succinate minimal salts medium. Growth is inhibited in succinate minimal medium by much lower concentrations of AD than in glucose minimal medium. Uptake of selected radioactive metabolites is inhibited by AD in cells incubated for 2 h in succinate medium containing AD but glucose-grown cells were not sensitive. EDTA treatment promotes increased sensitivity to AD in succinate-grown cells but does not alter sensitivity in glucose-grown cells. Succinate-grown cells bound 2-3 times as much 3H-AD as glucose-grown cells. Glucose-grown cells had much higher lipopolysaccharide levels in the envelope than succinate-grown cells. It is proposed that the lipopolysaccharide masks the binding sites and, therefore, is responsible for the difference in binding of AD by the glucose- and succinate-grown cells. The availability of the binding sites is also reflected in the sensitivity of the cells to the antibiotic.     

Antigen-experienced CD4 T cells display a reduced capacity for clonal expansion in vivo that is imposed by factors present in the immune host

It is thought that protective immunity is mediated in part by Ag-experienced T cells that respond more quickly and vigorously than naive T cells. Using adoptive transfer of OVA-specific CD4 T cells from TCR transgenic mice as a model system, we show that Ag-experienced CD4 T cells accumulate in lymph nodes more rapidly than naive T cells after in vivo challenge with Ag. However, the magnitude of clonal expansion by Ag-experienced T cells was much less than that of naive T cells, particularly at early times after primary immunization. Ag-experienced CD4 T cells quickly reverted to the slower but more robust clonal expansion behavior of naive T cells after transfer into a naive environment. Conversely, the capacity for rapid clonal expansion was acquired by naive CD4 T cells after transfer into passively immunized recipients. These results indicate that rapid in vivo response by Ag-experienced T cells is facilitated by Ag-specific Abs, whereas the limited capacity for clonal expansion is imposed by some other factor in the immune environment, perhaps residual Ag.     

Synaptic connections and functional organization in Aplysia buccal ganglia.

The buccal ganglion of Aplysia contains three morpho-functional groups (A, B, and C) of large cells and two groups (s1 and s2) of small cells. The A cells evoke monoxynaptic IPSPs in the B cells. We found that s1 cells can evoke large EPSPs in the A cells, IEPSPs in the B cells, and EIIPSPs in the C cells; several s1 cells are able to evoke all three types of responses. Many s2 cells can evoke these same responses, but only in the A and B cells. Furthermore, the s cells can evoke depolarizing PSPs in other s cells; this relation is often reciprocal. All these responses may also be contralateral. Their monosynaptic nature is shown by the consistent 1:1 relationship with the presynaptic spike, and also by the effects of intracellular tetraethylammonium and of high Mg2+ concentration in the bathing medium. d-tubocurarine reversibly suppresses the I phase of the IEPSP evoked by the s cells in the B cells. All the responses evoked by the s cells undergo depression with repetition. The network formed by all these relations is outlined, and a double relationship proposed between s cells and B cells. By electrophysiological tracing of axonal pathways it is shown that the A cells send axons into the 3rd buccal nerve, the B cells into the 2nd and/or 3rd buccal nerve and in two cases into the radular nerve, and the C cells into the gastro-oesophageal nerve. Spontaneous synaptic activity of the buccal neurons appears to be formed mostly by the described PSPs. Spontaneous firing inside the isolated ganglion corresponds well to the alternate pattern of muscular contractions of the buccal mass.     

Generation and characterization of IL-2-activated veto cells.

The regulation of in vivo cytolytic response is important in a model of murine graft-vs-host disease induced by the injection of parental splenocytes into unirradiated B6D2F1 recipients. Injection of C57BL/6J spleen cells into B6D2F1 recipients results in an acute form of graft-vs-host disease that is characterized by the presence of CTL and suppressor cells, runting, and occasionally death. In contrast, injection of DBA/2J spleen cells into B6D2F1 recipients results in a chronic form of graft-vs-host disease that is characterized by the lack of in vivo CTL and hyperproduction of Ig and autoantibodies that results in an SLE-like syndrome. One reason for the lack of donor antirecipient CTL after injection of DBA/2J donor cells is that B6D2F1 recipient cells functionally inactivate the donor DBA/2J CTL precursor cells by expressing veto activity. These B6D2F1 veto cells are radiosensitive, inhibited by anti-CD8 antibodies, found primarily in lymph nodes, and were further characterized by testing the response of these inhibitory cells to lymphokines. These studies indicate that IL-2 can potentiate the activity of the veto cells induced in vivo and veto cells with a similar phenotype can be generated by in vitro incubation of naive lymph node cells with IL-2. These cells have been designated as IL-2-activated veto cells or LAV cells. IL-2 did not increase inhibitory activity by increasing the number of CD8+ cells or the number of CD8 molecules on the LAV cell surface but by altering the activation state of the LAV cell. The inhibitory capabilities of antibodies binding various cell surface molecules indicated that CD2 and intercellular adhesion molecule-1 molecules in addition to CD8 molecules played a role in the function of LAV cells.     

A morphologic study of the ductus of the epididymis of Sus domesticus

The head, body, and tail regions of the epididymal duct (or caput, corpus, and cauda epididymis) in two healthy and sexually mature Sus domesticus males were examined by light microscopy and by scanning or transmission electron microscopy. The epididymal duct is lined with a pseudostratified epithelium with stereocilia and covered by a muscular-connective tissue sheath that is thickest in the tail region. Diameter of the epididymal duct and height of epididymal epithelium are maximal in the head region. Length of the sterocilia and spermatic density are higher in the head and body regions. Somatic cells are abundant in the tail region. The epididymal epithelium is made up of five cell types: basal cells, principal cells, clear cells, narrow cells, and basophilic cells. Abundant secretory units are observed in the supranuclear cytoplasm of columnar principal cells. Each mature secretory unit is constituted by electron-dense secretion granules covered by more than eight layers of cisternae of reticulum between which the mitochondria are intercalated. In the apical cytoplasm the isolated secretion granules become larger and less electron dense. The apical surface is covered by numerous sterocilia. Basal cells are pyramidal and less high than principal cells. The clear cells, arranged between the principal cells, are characterized by the presence of abundant vesicular elements and electron-lucid secretion granules, and by an apocrine secretory process. The narrow cells are characterized by their highly vacuolized cytoplasm. Intermediate cell typologies can be found among basal, principal, clear, and narrow cells, which could be four developmental stages of the same cell type. The basophilic cells are spheroidal and are found at different levels between the epithelial cells and in the connective tissue underlying the epithelium. © 1993 Wiley-Liss, Inc.     

Development of hormonal regulation of ion transport in embryonic chick red cells

We have found that cation transport in red cells from chick embryos is stimulated by the hormone epinephrine and that this response develops as the embryonic definitive cells mature. Sodium efflux and potassium influx are significantly stimulated (50%) by epinephrine in red cells from embryos incubated ten days or longer, whereas cation fluxes in erythroid cells from 8- or 9-day embryos are stimulated little or not at all. The effect of epinephrine may be mediated by cyclic AMP as adenylate cyclase activity in membranes isolated from embryonic red cells is only slightly stimulated at nine days, but the response increases as the cells mature to a maximum of about 180%. Also the stimulation of cation transport by epinephrine is blocked by propranolol, but not by phentolamine. Although the younger cells respond poorly to epinephrine, cyclic AMP significantly stimulates transport. The enhancement of cation fluxes by epinephrine or cyclic AMP occurs even in the presence of ouabain. Since both K influx and Na efflux are enhanced by these agents, their action is most likely on some form of the “Na-K” pump which is not ouabain sensitive resulting in a significant increase in the maximum velocity of the pump. We suggest the hypothesis that there are two classes of “Na-K” pump in these embryonic cells. One pump is similar to that found in many erythrocytes including mammalian cells in that it selectively pumps potassium in and sodium out, is ouabain-sensitive, and is primarily involved in maintaining intracellular cation concentrations. The second pump is enhanced by epinephrine via cyclic AMP, is not inhibited by ouabain, and may have lower ion selectivity. This hormone sensitive pump activity is lost as the cells mature, a process which is completed when the animal is fully grown and no longer has significant numbers of embryonic cells in its circulation.     

Cytoplasmic inheritance of oligomycin resistance in Chinese hamster ovary cells

Oligomycin-resistant clones were isolated from Chinese hamster ovary cells by treatment of cells with ethidium bromide, followed by mutagenesis with ethylmethane sulfonate and selection in oligomycin. One clone (Olir 8.1) was chosen for further study. Olir 8.1 cells grow with doubling time similar to that of wild-type cells, whether grown in the presence or absence of drug (doubling time of 13-14 h). In plating efficiency experiments, Olir 8.1 cells are approximately 100-fold more resistant to oligomycin than are wild-type cells. There is approximately a 32-fold increase in the resistance to inhibition by oligomycin of the mitochondrial ATPase from Olir 8.1 cells. The electron transport chain is functional in Olir 8.1 cells. Oligomycin resistance is stable in the absence of selective pressure. There is little or no cross-resistance of Olir 8.1 cells to venturicidin and dicyclohexylcarbodiimide, other inhibitors of the mitochondrial ATPase, or to chloramphenicol, an inhibitor of mitochondrial protein synthesis. Oligomycin resistance is dominant in hybrids between Olir 8.1 cells and wild-type cells. Fusions of enucleated Olir 8.1 cells with sensitive cells and characterization of the resulting "cybrid" clones indicates that oligomycin resistance in Olir 8.1 cells is cytoplasmically inherited.     

The mitogenic signaling pathway but not the plasminogen activator- inducing pathway of basic fibroblast growth factor is mediated through protein kinase C in fetal bovine aortic endothelial cells

Basic fibroblast growth factor (bFGF) induces cell proliferation and plasminogen activator (PA) activity in transformed fetal bovine aortic endothelial (FBAE) GM 7373 cells. A similar response is observed after treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA). In these cells, bFGF and TPA cause activation of protein kinase C (PKC), as demonstrated by the induction of the phosphorylation of an 87-kD PKC substrate in intact cells and by the increase in membrane-associated PKC activity. Activation of PKC by bFGF or TPA is inhibited in cells made PKC-deficient by pretreatment with high concentrations of TPA. The mitogenic activity of bFGF or of TPA is completely inhibited in PKC- deficient cells or in naive cells treated with the PKC inhibitor H-7. However, these cells proliferate in response to serum, epidermal growth factor, and dibutyryl cyclic AMP. Similar results are obtained in normal FBAE AG 7680 cells. These data indicate that activation of PKC is responsible for the mitogenic activity of bFGF in FBAE cells. On the contrary, the PA-inducing activity of bFGF is unaffected by down- regulation of PKC or by treatment with the PKC inhibitor H-7 in both transformed GM 7373 and normal AG 7680 cells. bFGF induces a rapid 45Ca influx in naive and in PKC-deprived GM 7373 cells. In these cells, addition of EGTA to the incubation medium prevents both the 45Ca influx and the increase in PA activity induced by bFGF, without affecting its mitogenic activity. Even though the involvement of PKC in the increase of cell-associated PA activity induced by bFGF can not be completely dismissed, the present results suggest a role of calcium entry in the modulation of the PA-inducing activity of bFGF.     

Membrane structures involved in auto-tumor recognition

Tumor patients' blood lymphocytes have the capacity to recognize autologous tumor cells in vitro. A consequence of this recognition is the proliferation of small-size, high-density, resting T cells. Both helper (CD4+) and cytotoxic/suppressor (CD8+) T lymphocytes proliferate in the mixed lymphocyte-tumor cell cultures. In contrast to the autologous mixed lymphocyte cultures, both the auto-erythrocyte rosetting and non-rosetting (AE+ and AE-) T cells participate in the auto-tumor response. In contrast to stimulation by virus-infected or hapten-modified cells, DR antigen expression is not essential for stimulation by autologous tumor cells. In a proportion of cancer patients, blood lymphocytes have the capacity to lyse the patients' own tumor cells in vitro. There are two populations of lymphocytes with auto-tumor cytotoxic function. The first is characterized by low buoyant density and by non-adaptive cytotoxicity. In contrast to the recognition of hapten-modified or virus-infected target cells by the CTL, recognition of autologous tumor cells by the cytotoxic LD cells occurs even when the MHC class I antigens are blocked by mAb. The CD3 complex is also not involved in LD-mediated lysis. The other population with auto-tumor cytotoxic function comprises high-density, resting T cells. Recognition of autologous tumor cells by cytotoxic HD lymphocytes shares the characteristics of CTLs, i.e., their function is abrogated by pretreatment of the effectors with mAbs directed to the T3 receptor complex and by preincubation of the targets with mAb to the MHC class I antigens. Cytotoxicity of HD cells is restricted to the autologous tumor cells. This selectivity and the characteristics shared with CTL suggest that the auto-tumor reactivity of HD lymphocytes reflects an immune response against the autologous tumor.