Classification and clinical behavior of blastic plasmacytoid dendritic cell neoplasms according to their maturation-associated immunophenotypic profile.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare subtype of leukemia/lymphoma, whose diagnosis can be difficult to achieve due to its clinical and biological heterogeneity, as well as its overlapping features with other hematologic malignancies. In this study we investigated whether the association between the maturational stage of tumor cells and the clinico-biological and prognostic features of the disease, based on the analysis of 46 BPDCN cases classified into three maturation-associated subgroups on immunophenotypic grounds. Our results show that blasts from cases with an immature plasmacytoid dendritic cell (pDC) phenotype exhibit an uncommon CD56- phenotype, coexisting with CD34+ non-pDC tumor cells, typically in the absence of extramedullary (e.g. skin) disease at presentation. Conversely, patients with a more mature blast cell phenotype more frequently displayed skin/extramedullary involvement and spread into secondary lymphoid tissues. Despite the dismal outcome, acute lymphoblastic leukemia-type therapy (with central nervous system prophylaxis) and/or allogeneic stem cell transplantation appeared to be the only effective therapies. Overall, our findings indicate that the maturational profile of pDC blasts in BPDCN is highly heterogeneous and translates into a wide clinical spectrum -from acute leukemia to mature lymphoma-like behavior-, which may also lead to variable diagnosis and treatment.

Dissociation from BiP and Retrotranslocation of Unassembled Immunoglobulin Light Chains Are Tightly Coupled to Proteasome Activity

Unassembled immunoglobulin light chains expressed by the mouse plasmacytoma cell line NS1 (KNS1) are degraded in vivo with a half-life of 50-60 min in a way that closely resembles endoplasmic reticulum (ER)-associated degradation (Knittler et al., 1995). Here we show that the peptide aldehydes MG132 and PS1 and the specific proteasome inhibitor lactacystin effectively increased the half-life of KNS1, arguing for a proteasome-mediated degradation pathway. Subcellular fractionation and protease protection assays have indicated an ER localization of KNS1 upon proteasome inhibition. This was independently confirmed by the analysis of the folding state of KNS1and size fractionation experiments showing that the immunoglobulin light chain remained bound to the ER chaperone BiP when the activity of the proteasome was blocked. Moreover, kinetic studies performed in lactacystin-treated cells revealed a time-dependent increase in the physical stability of the BiP-KNS1complex, suggesting that additional proteins are present in the older complex. Together, our data support a model for ER-associated degradation in which both the release of a soluble nonglycosylated protein from BiP and its retrotranslocation out of the ER are tightly coupled with proteasome activity.

RELATIONSHIP OF MOUSE IMMUNOGLOBULIN GENES TO INVERTED REPETITIVE DNA SEQUENCES

The purpose of this study was to examine the relationship of immunoglobulin genes, more specifically the C regions, to the inverted repetitive sequences found in the mouse genome. Total mRNA as well as mRNA for light chain kappa was purified from mouse plasmacytoma MOPC 321 cells. Complementary DNA molecules were synthesized from the mRNA templates and hybridized to DNA fractionated on hydroxyapatite columns. This fractionation separates DNA according to the presence of inverted repetitive sequences which will be retained by hydroxyapatite while the remaining fraction will be unbound.^ The results obtained during the course of this investigation suggested the following conclusions. Firstly, it was shown that inverted sequences were not found within the transcribed DNA region. Secondly, inverted sequences are not found within the kappa gene. And finally, it was shown that the inverted sequences may not be representative of all the sequences found in MOPC 321 DNA. ^

Diverse karyotypic abnormalities of the c-myc locus associated with c-myc dysregulation and tumor progression in multiple myeloma

Translocations involving c-myc and an Ig locus have been reported rarely in human multiple myeloma (MM). Using specific fluorescence in situ hybridization probes, we show complex karyotypic abnormalities of the c-myc or L-myc locus in 19 of 20 MM cell lines and approximately 50% of advanced primary MM tumors. These abnormalities include unusual and complex translocations and insertions that often juxtapose myc with an IgH or IgL locus. For two advanced primary MM tumors, some tumor cells contain a karyotypic abnormality of the c-myc locus, whereas other tumor cells do not, indicating that this karyotypic abnormality of c-myc occurs as a late event. All informative MM cell lines show monoallelic expression of c-myc. For Burkitt's lymphoma and mouse plasmacytoma tumors, balanced translocation that juxtaposes c-myc with one of the Ig loci is an early, invariant event that is mediated by B cell-specific DNA modification mechanisms. By contrast, for MM, dysregulation of c-myc apparently is caused principally by complex genomic rearrangements that occur during late stages of MM progression and do not involve B cell-specific DNA modification mechanisms.

Rabbit monoclonal antibodies: generating a fusion partner to produce rabbit-rabbit hybridomas.

During the last 15 years several laboratories have attempted to generate rabbit monoclonal antibodies, mainly because rabbits recognize antigens and epitopes that are not immunogenic in mice or rats, two species from which monoclonal antibodies are usually generated. Monoclonal antibodies from rabbits could not be generated, however, because a plasmacytoma fusion partner was not available. To obtain a rabbit plasmacytoma cell line that could be used as a fusion partner we generated transgenic rabbits carrying two transgenes, c-myc and v-abl. These rabbits developed plasmacytomas, and we obtained several plasmacytoma cell lines from which we isolated hypoxanthine/aminopterin/thymidine-sensitive clones. One of these clones, when fused with spleen cells of immunized rabbits, produced stable hybridomas that secreted antibodies specific for the immunogen. The hybridomas can be cloned and propagated in nude mice, and they can be frozen without change in their ability to secrete specific monoclonal antibodies. These rabbit-rabbit hybridomas will be useful not only for production of monoclonal antibodies but also for studies of immunoglobulin gene rearrangements and isotype switching.

The effects of nitrogen mustard on plasma membrane function

The antitumour bifunctional alkylating agent nitrogen mustard (HN2) inhibited the unidirectional influx of the potassium congener, 86 rubidium, into murine PC6A plasmacytoma cells and L1210 leukaemia cells. The proliferation of L1210 cells in vitro was characterised and shown to be sentitive to HN2. 86Rubidium influx into cells from rapidly-dividing cultures was more sensitive to inhibition by HN2 than that of cells from stationary cultures. Three components of unidirectional 86Rb+ & K+ influx into proliferating L1210 cells were identified pharmacologically: approximately 40% was active to the Na+ K+ ATPase inhibitor ouabain (10-3M), 40% was sensitive to the `loop' diuretics bumetanide (10-4M) and furosemide (10-3M) and the remainder was insensitive to both ouabain and furosemide. HN2 (10-5M) selectively inhibited the diuretic-sensitive component, which was entirely dependent upon extracellular Na+ and Cl- ions, and was presumed to represent Na+ K+ Cl- cotransport activity. The system did not mediate K+ /K+ exchange or unidirectional 86Rb+ efflux; accordingly, 86Rb+ efflux was insensitive to HN2. Inhibition of 86Rb & K+ influx by 10-5M HN2 was accompanied by approximately 35% of cell volume under isosmotic conditions; thus intracellular Na+ and K+ concentrations remained unchanged. These effects followed lethal damage to the cells but preceded actual cell death; other cellular functions were maintained including accumulation of cycloleucine, transmembrane potential, permeability to trypan blue, intracellular pH, total intracellular glutathione and calcium concentrations. No evidence was found that elevated cAMP levels or reduced ATP levels were involved in modulation of 86Rb+ & K+ influx. However, the Na+ - depedent transport of an amino acid was inhibited in a manner which appeared to be independent of 86Rb & K+ influx. An HN2-resistant L1210R cell line was also resistant to furosemide, and lacked a component of 86Rb+ & K+ influx which was sensitive to furosemide (10-3M). The results strongly suggest that the Na+ K+ Cl- costransporter of L1210 cells is a cellular target for HN2. This lesion is discussed with reference to the cytotoxic effects of the agent.

Demonstration of changes in plasma cell subsets in multiple myeloma.

Increases in free light chain (FLC) production are associated with disease progression in multiple myeloma (MM). Using a double immunofluorescence staining method to produce a differential count of plasma cells in bone marrow, single populations were demonstrated, containing intact monoclonal immunoglobulins (M-Igs) in 74% and FLCs only in 8% of cases. However, 18% contained a mixture of both cell populations. Progression from cells making intact M-Ig to cells restricted to FLC only production occurred in individual cases during the course of their disease. The presence of FLC only cells was associated with shortened survival.