The Journal of Experimental Medicine

Stout, R D; Herzenberg, L A

doi: 10.1084/jem.142.5.1041pmid: 1081574

The responsiveness of purified Fc- and Fc+ T lymphocytes, isolated from normal spleen cell populations by cell sorting on the fluorescence activated cell sorter, has been examined. Although both Fc- and Fc+ T cells responded to phytohemagglutinin, the response to concanavalin A (Con A) was found to be a characteristic of the Fc+ T lymphocyte. The poor responsiveness of the Fc- T cells to Con A was shown not to be due to a requirement of either different concentrations of Con A or for adherent cells. The addition of Fc+ T cells to the Fc- T cells in a ratio of 1:3 resulted in a mitotic response not significantly different from that observed with the purified Fc+ T cells alone and up to 15-fold greater than that of Fc- T cells alone. It is suggested that the Fc T cells can be recruited into mitosis as a result of Con A stimulation of the Fc+ T cells.

Raff, M C; Owen, J J; Cooper, M D; Lawton, A R; Megson, M; Gathings, W E

doi: 10.1084/jem.142.5.1052pmid: 811748

Purified goat antibodies against mouse mu-chains and rabbit antibodies against mouse Ig determinants, and their Fab fragments, inhibited the development of IgM-bearing B cells in explant cultures of 14-day mouse fetal liver, and caused the disappearance of cell surface IgM in explant and dissociated cell cultures of more developed lymphoid tissues. While treatment of cultures of fetal or newborn liver, or adult bone marrow, with low concentrations (less than or equal to 10 mug/ml) of anti-Ig for less than or equal to 24 h caused the complete, but reversible, disappearance (modulation) of cell surface IgM, treatment for greater than or less than 48 h produced irreversible IgM suppression. In contrast, anti-Ig-induced suppression of cell surface IgM in cultures of adult spleen or lymph nodes required much higher concentrations of antibody (greater than or equal to 100 mug/ml) and was always reversible. These differences between immature and mature IgM-bearing cells could not be related to differences in the amount of surface IgM on the cells. The remarkable sensitivity of newly formed B cells to IgM modulation and irreversible IgM suppression when ligands bind to their Ig receptors, may have important implications for B-cell tolerance to self antigens.

D'Eustachio, P; Edelman, G M

doi: 10.1084/jem.142.5.1078pmid: 1194849

In order to analyze the development of antibody diversity in which the genes coding for the antigen-specific cells we have compared the binding of diverse antigens by cells in the fetal, neonatal, and adult mouse. Although the numbers of antigen-binding cells present in fetuses and young animals were smaller than in adults, no restriction could be detected in the varity of specificities expressed in the fetuses, either with respect to the kinds of antigens bound, or to the range of avidities of binding. Cells specific for each of the 11 antigens tested could be detected in the fetus only in the last 4 days before birth, at which time they appeared both in the liver and in the spleen. In all cases, these cells disappeared both in the liver and in the spleen. In all cases, these cells disappeared from the liver within a day of birth, but continued to increase in number in the spleen until adulthood...

Chisari, F V; Edgington, T S

doi: 10.1084/jem.142.5.1092pmid: 172585

Rosette inhibitory factor, RIF, previously described in serum from patients with hepatitis B virus infection, has been isolated and identified as a minor species of beta-lipoprotein of the low-density (LDL) class. It is unrelated to hepatitis B virus proteins or particles. Although discrete by reference to charge and density (1.050 +/- 0.004 g/cm3), RIF appears to be a complex macromolecular structure containing apolipoproteins A, B, and C. Greater than 400% recovery is achieved upon 300,000-fold purification from RIF+ sera suggesting activation of a precursor form that is not present in normal serum. RIF inhibits E rosette function of T lymphocytes in vitro with a lag period of approximately 4 h and maximal effect at 24 h consistent with a metabolically-induced event. RIF is functionally active at concentrations of 1 X 10(-12) M or greater, rapidly binds to lymphocytes, and has a functionally effective half-life of approximately 1.5 h. Approximately 2,900 receptors for RIF appear to be present per cell and a high mutual affinity is apparent (k approximately to 9 X 10(10) liters/mol). RIF has no detectable effect on mitogen (PHA) responsiveness of lymphocytes, but inhibits the capacity of lymphocytes to respond to histoincompatible cells in vitro at concentrations greater than 10(-8) M. Equivalent RIF- lipoprotein fractions from normal serum are equally inhibitory in the mixed lymphocyte reaction suggesting that this effect is not directly attributable to RIF activity. These data indicate that RIF is a unique and functionally specific species of LDL that represents either an association complex of lipoproteins or a hybrid molecule of unusual composition. The association of this factor with viral-induced hepatocellular injury underscores the need to elucidate its structure and function in greater detail.

Gordon, R D; Simpson, E; Samelson, L E

doi: 10.1084/jem.142.5.1108pmid: 1081575

C57BL/10 female mice were primed to the male specific antigen H-Y, either by grafting with syngeneic male tail skin or by i.p. injection of syngeneic male spleen cells. Primed female spleen cells, either unseparated or filtered through nylon wool to remove most of the B lymphocytes, were then cultured for 5 days in vitro with irradiated syngeneic male spleen cells and assayed against 51Cr-labeled target cells. Both unseparated and nylon wool filtered female cells displayed significant cytotoxic activity restricted to male target cells. Pretreatment of sensitized female cells with antitheta serum and complement just before assay abolished cytotoxic responses. We were unable to demonstrate cell-mediated cytotoxic responses into two nonresponding strains, CBA and B10.A, which fail to reject male isografts. The cytotoxic activity of C57BL/10 female cells was restricted to male target cells histocompatible with C57BL/10 over at least a portion of the major (H-2) histocompatibility complex. We conclude that secondary in vitro cytotoxic responses against the H-Y antigen are mediated by cytotoxic T lymphocytes, and that the H-Y target cell antigen may be specified by the H-2 complex.

Trenkner, E; Riblet, R

doi: 10.1084/jem.142.5.1121pmid: 53257

Anti-idiotypic antibodies have been used to mimic antigen in the mouse antiphosphorylcholine response in order to investigate the induction of precursors of antibody-forming cells. We have shown that interaction of anti-idiotype antibody with receptor antibody molecules induces the formation of antibodies that are specific for phosphorylcholine and carry the idiotypic determinants. This induction is dependent on the recognition of carrier determinants on the anti-idiotype antibody by helper T cells. We conclude that receptor antibody molecules on the surface of the precursors of antibody-forming cells deliver the antigenic signal for the induction of these cells.

Shearer, W T; Parker, C W

doi: 10.1084/jem.142.5.1133pmid: 1194850

A permanent L-cell variant cell line (LC1) was isolated by the growth of the parent L-cell line (L) in the presence of a cytostimulatory dose (1:200) of rabbit anti-L-cell antiserum (AL) for 9 mo. LC1 differed from L in many aspects: (a) it was larger (1,533 mm3 vs. 1,284 mm3), (b) it grew faster (1.5- to 2-fold), (c) it grew in aggregated fashion, (d) its growth was no longer stimulated by AL, (e) it was almost completely resistant to high concentrations of AL in the presence of complement (C), (f) its original membrane antigens (immunogenic for AL) were redistributed in sparse and patchy clumps as noted by fluorescence microscopy, (g) it contained about 65% of the total original 125I-AL membrane-binding sites (1.4 X 10(7)/cell vs. 2.2 X 10(7)/cell), (h) its AL-binding sites displayed a lower average affinity constant (K = 0.9 X 10(5) M-1 vs. 2.8 X 10(5) M-1), (i) it contained a smaller proportion of high affinity (K greater than 10(6) M-1) binding sites (13% vs 21%), and (j) LC1 was fully immunogenic in that it was readily killed by homologous antiserum (ALC1) and C, whereas L was not similarly affected by ALC1 indicating that LC1 contained new membrane antigens not present on L. Another variant (LC2) was produced by growth of LC1 in a 10-fold higher dose (1:20) of AL (cytotoxic for L) for 1 mo. LC2 was even more resistant to AL in the presence of C, contained 0.84 X 10(7) AL-binding sites/cell with an average affinity constant of 1 X 10(5) M-1 (unchanged from LC1), and was less susceptible than LC1 to lysis in the presence of ALC1 and C. These findings confirm and extend our previous in vitro and in vivo observations dealing with the direct stimulation effects of antibody on tumor cell metabolism and suggest that immunostimulation may be a mechanism of tumor escape from immune control in vivo possibly by immunoselection and antigenic modulation as proposed by other investigators.

Edelson, P J; Zwiebel, R; Cohn, Z A

doi: 10.1084/jem.142.5.1150pmid: 53258

Peritoneal macrophages from mice injected 4 days previously with Brewer's thioglycollate medium have a pinocytic rate, in culture, of 190 ng horseradish peroxidase (HRP)/100 mug cell protein/h, compared to the rate of resident peritoneal cells of 53 ng HRP/100 mug cell protein/h. Mice injected with endotoxin or with only certain of the components of the Brewer's medium show an intermediate level of stimulation. The rate of unstimulated, endotoxin-stimulated, or thioglycollate-stimulated cells shows little change over several days in culture. The pinocytic rate of thioglycollate-stimulated cells can, however, be further increased by exposure of concanavalin A. Although cells may show transient increases in their pinocytic rate in many situations, a sustained increase in pinocytic rate is a sign of the "activated" state of macrophages.

Pierce, S K; Klinman, N R

doi: 10.1084/jem.142.5.1165pmid: 811749

The ability of T cells to enhance the response of syngeneic and allogeneic B cells to thymus-dependent hapten-carrier conjugates was analyzed. This analysis was carried out on individual primary B cells in splenic fragment cultures derived from irradiated reconstituted mice. This system has several advantages: (a) the response of the B cells is entirely dependent on carrier priming of the irradiated recipient; (b) this B-cell response can be quantitated in terms of the number of responding cells; and (c) very small B-cell responses can be readily detected and analyzed. The results indicate that the majority of hapten-specific B cells were stimulated in allogeneic and syngeneic recipients only if these recipients were previously carrier primed. The number of B cells responding in carrier-primed allogeneic recipients was 60-70% of that in syngeneic carrier-primed recipients. The antibody-forming cell clones resulting from B cells stimulated in the allogeneic environment produced small amounts of antibody and antibody solely of the IgM immunoglobulin class, while the larger responses in syngeneic recipients were predominantly IgG1 or IgM plus IgG1. The capacity of collaborative interactions between carrier-primed T cells and primary B cells to yield IgG1 antibody-producing clones was shown to be dependent on syngeny between these cells in the H-2 gene complex. It is concluded that: (a) B cells can be triggered by T-dependent antigens to clone formation through collaboration with T cells which differ at the H-2 complex as long as these T cells recognize the antigen; (b) the immunoglobulin class produced by the progeny of stimulated B cells generally depends on the nature of the stimulatory event rather than the nature of the B cell itself; and (c) stimulation to IgG1 production is dependent on syngeny between the collaborating T and B cells probably within the Ir-1A region. The role of the Ia antigens in the formation of IgG1-producing clones is not yet clear; Ia identity could permit IgG1 production or, conversely, nonidentity of Ia could induce all allogeneic interactions which prohibit IgG1 production.

Goud, T J; Schotte, C; van Furth, R

doi: 10.1084/jem.142.5.1180pmid: 1104740

A liquid culture technique for growing mononuclear phagocyte colonies on a glass surface is described. This useful and reliable technique made it possible to study immature mononuclear phagocytes. In the mononuclear phagocyte colonies the cells grow separate from each other in a single layer. Three types of cells are recognized in these colonies, namely nondividing macrophages, and proliferating promonocytes and monoblasts. The macrophage and the promonocyte exhibit the typical characteristics previously demonstrated by the other methods, whereas the monoblast could only be fully characterized by the present liquid culture method. This proliferating cell (labeling index with 3Hthymidine, 92-96%) is almost round (diameters, 10 X 10 mum), has only a small rim of strongly basophilic cytoplasm, almost devoid of granules, and shows a certain degree of ruffling of the cell surface. The monoblast is positive for esterase with alpha-naphthyl butyrate as substrate (91%), for peroxidase (78% in the peroxidase-positive colonies), and lysozyme (43%). The monoblast is able to pinocytize dextran sulphate (15-20%) and to phagocytize opsonized bacteria (20-30%), latex particles (47%), and IgG-coated red cells (96%). IgG receptors (94%) and complement receptors (16%) are present at the cell surface. In these respects the monoblast has the typical characteristics of the mononuclear phagocytes, but its properties show it to be a more immature cell type than the promonocyte. On the basis of these criteria and the sequence of appearance of the different cell types during incubation and during the development of the individual mononuclear phagocyte colony, monoblasts being present before promonocytes appear in the colony, it is concluded that the monoblast is the precursor of the promonocyte. In these cultures granulocyte colonies are also formed, consisting of myeloblasts, (pro)myelocytes, stabs, and polymorphonuclear neutrophils. Besides the typically tight structure of this kind of colony, the granulocytic cells themselves are quite distinct from the mononuclear phagocytes by their morphology, cytochemical characteristics (e.g. all negative for esterase with alpha-naphthyl butyrate, but 96% positive with N-acetyl DL-alanyl 1-naphthylester), functional characteristics (pinocytic index 13-21%; phagocytic index; for opsonized bacteria 15-36%, for latex particles 10%, and for IgG-coated red cells 0%), and their very small number of IgG receptors and lack of complement receptors. On the basis of these criteria, these granulocytic cells are easily distinguished from the immature cells of the mononuclear phagocyte colonies. The present study confirms the conclusion that the mononuclear phagocytes are a separate cell line, quite distinct from the granulocytic series, since even the most immature cells so far identified--the monoblast and the myeloblast--have quite different characteristics.