Several methods have been used in the present study to characterize Fc receptors (FcR) expressed on T-T hybridomas derived from mouse Peyer's patch T helper (Th) cell clones that preferentially support IgA responses. These T hybridomas (designated Th HA cells) produce IgA-binding factor (IBF alpha) which regulates antigen-dependent IgA responses. The ultrastructure of Th HA cells and the distribution of Fc alpha R on these cell lines were determined by colloidal gold (CG) immunoelectron microscopy (IEM). When Th HA cells were incubated with purified mouse IgA followed by CG-labeled anti-IgA, an even pattern of CG was distributed on the cell membrane. To ensure that binding occurred through Fc alpha R, Th HA cells were mixed with MOPC 315 IgA anti-DNP, followed by staining with CG-labeled TNP-human serum albumin. This resulted in an identical pattern of gold particle distribution, confirming expression of Fc alpha R on Th HA cells. No Fc mu R or Fc gamma 1R were detectable on Th HA cells by IEM. Immunocytoadherence with TNP-conjugated erythrocytes confirmed that Th HA cells were Fc alpha R+; however, no IgM or IgG rosettes were seen. When these cell lines were analyzed by flow cytometry (FACS) using IgA, IgM, or IgG1 and FITC-labeled anti-H chain-specific antibodies, 55 to 65% of cultured Th HA cells expressed Fc alpha R, and 11 to 18% expressed Fc mu R; however, no Fc gamma 1R was detectable on Th HA cells. The use of ELISA with Th HA cells as antigen confirmed the expression of Fc alpha R and the presence of less Fc mu R on these two cell lines. Solubilized membrane fractions derived from Th HA cells were tested for the presence of FcR by ELISA and for biologic function for support of IgA responses in Peyer's patch B cell cultures. Both Fc alpha R and Fc mu R were detected in fractions derived from Th HA cells. Furthermore, these fractions supported in vitro IgA anti-sheep erythrocyte responses, comparable to those obtained with Th HA cell culture supernatants containing IBF alpha. These studies show that Th HA cells express Fc alpha R with less Fc mu R, and the solubilized form of Fc alpha R exhibits IBF alpha-like activity. The significance of FcR expression by Th cell clones and cell lines and the relationship of soluble Fc alpha R and IBF alpha for IgA response regulation are discussed.
In normal human salivary glands the Duct-Associated Lymphoid Tissue (DALT) is poorly developed. In contrast, in the course of autoimmune disorders, typified by Sjögren's syndrome (SS), organized lymphoid accumulations are formed around the ducts. B cell-dependent zones with secondary follicles and T cell-dependent zones with HEV are detected in these lymphoid structures. In addition, the duct epithelium is infiltrated by abundant lymphocytes. A persistent antigenic stimulation may lead to development of B-cell Mucosa-Associated Lymphoid Tissue (MALT) lymphomas that, in low-grade cases, maintain the lobular organization of normal and of SS salivary glands.
Abstract Subsets of Leu-2+/T8+ cytotoxic/suppressor T lymphocytes were isolated by using various methods of purification and were investigated for expression of ecto-5' nucleotidase (5'NT) enzyme activity by radiochemical, cytochemical, and ultrastructural techniques. By using both the radiochemical and the cytochemical methods. T4-OKM1- cells displayed higher 5'NT activity in comparison with the entire T4- subpopulation. Analyses of the subpopulations of T4- (and predominantly Leu-2+) cells defined by the Leu-15 or Lyt-1 (9.3) monoclonal antibodies demonstrated that T4-Leu-15- and T4-Lyt-1+ cells displayed high 5'NT activity, whereas virtually no activity was present in T4-Leu-15+ and T4-Lyt-1-cells. At the ultrastructural level, the 5'NT reaction product was detected on the plasma membrane of a proportion of nongranular Leu-2+/T8+ lymphocytes, but no activity was found on cells with a granular lymphocyte (GL) morphology. 5'NT activity was also analyzed in peripheral blood mononuclear cells from one patient with expanded numbers of GL and two patients with GL leukemia. The enzymatic activity was significantly lower in these patients than in normal controls. This study provides new cytochemical evidence demonstrating the heterogeneity of Leu-2+/T8+ cells, and indicates that the population with the suppressor phenotype and function (Leu-15+/Lyt-1-, GL morphology) displays low or absent 5'NT activity, whereas the population composed of cytotoxic cell precursors (Leu-15-/Lyt-1+, nongranular morphology) has high 5'NT activity. Implications of these data for the interpretation of low 5'NT activity described in several immunodeficiency states and lymphoproliferative disorders are discussed.
Dilated cisternae of the ER resembling Russell Bodies (RBs) are induced in light (L) chain producing myeloma cell lines by transfection of a mu heavy (H) chain gene lacking the first constant domain (mu delta CH1). RBs do not appear to be tissue specific, since they are also induced in a rat glioma cell line transfected with mu delta CH1 and L chain genes. Efficient RB biogenesis requires H-L assembly and polymerization. The mutant Ig is partially degraded in a pre-Golgi compartment. The remnant, however, becomes an insoluble lattice when intersubunit disulphide bonds are formed. The resulting insoluble aggregate accumulates in RBs. Replacing the COOH-terminal cysteine of mu delta CH1 chains with alanine reverses the RB-phenotype: the double mutant mu ala delta CH1 chains assemble noncovalently with L and are secreted as H2L2 complexes. Similarly, secretion of mu delta CH1 chains can be induced by culturing transfectant cells in the presence of reducing agents. The presence of RBs does not alter transport of other secretory or membrane molecules, nor does it affect cell division. Resident proteins of the ER and other secretory proteins are not concentrated in RBs, implying sorting at the ER level. Sorting could be the result of the specific molecular structure of the insoluble lattice. We propose that RBs represent a general response of the cell to the accumulation of abundant, nondegradable protein(s) that fail to exit from the ER.
