VH replacement rescues progenitor B cells with two nonproductive VDJ alleles

Inaccurate VDJ rearrangements generate a large number of progenitor (pro)-B cells with two nonproductive IgH alleles. Such cells lack essential survival signals mediated by surface IgM heavy chain (muH chain) expression and are normally eliminated. However, secondary rearrangements of upstream VH gene segments into assembled VDJ exons have been described in mice transgenic for productive muH chains, a process known as VH replacement. If VH replacement was independent of muH chain signals, it could also modify nonproductive VDJ exons and thus rescue pro-B cells with unsuccessful rearrangements on both alleles. To test this hypothesis, we homologously replaced the JH cluster of a mouse with a nonproductive VDJ exon. Surprisingly, B cell development in IgHVDJ-/VDJ- mice was only slightly impaired and significant numbers of IgM-positive B cells were produced. DNA sequencing confirmed that all VDJ sequences from muH chain-positive B lymphoid cells were generated by VH replacement in a RAG-dependent manner. Another unique feature of our transgenic mice was the presence of IgH chains with unusually long CDR3-H regions. Such IgH chains were functional and only modestly counter-selected, arguing against a strict length constraint for CDR3-H regions. In conclusion, VH replacement can occur in the absence of a muH chain signal and provides a potential rescue mechanism for pro-B cells with two nonproductive IgH alleles.     

Minimal peripheral blood cells carrying clonal markers of B cell disorders: evidence for monoclonality of circulating lymphocytes in patients with multiple myeloma

Peripheral blood lymphocytes (PBL) of 20 patients with multiple myeloma (MM) were assayed for clonality by Southern blot and cell surface marker analysis. Eight samples showed monoclonal origin of circulating lymphocytes by demonstrating rearrangements of the heavy chain immunoglobulin gene (IgH). In selected experiments, comparison of IgH rearrangements of bone marrow plasma cells and peripheral blood-derived mononuclear cells, highly enriched for B lymphocytes, proved to be identical. However, monoclonal circulating cells could not be detected in samples with rearranged IgH genes by surface marker phenotyping using one-color immunofluorescence analysis and a panel of monoclonal and polyclonal antibodies to various B lineage-associated antigens. These results indicate that in a substantial proportion of MM, monoclonal growth involves circulating B lymphocytes and underscores the clinical usefulness of Southern analysis of IgH gene rearrangements for monitoring this disease.     

Biallelic IgH rearrangements in patients with indolent lymphoproliferative disorders: molecular and practical implications

We report a group of patients (pts) with indolent lymphoproliferative disorder who had both alleles for the immunoglobulin heavy chain genes rearranged (biIgH). This group of 17 pts consisted of 9 small lymphocytic lymphomas (SLL) and 8 chronic lymphocytic leukemia (CLL). The polymerase chain reaction (PCR) amplification of clonal immunoglobulin heavy (IgH) rearrangement using the complementarity determining region III (CDRIII) constantly retrieved two distinct bands in all PCR informative samples of those pts. To rule out biclonality, we evaluated samples by fluorescein activated cell sorting (FACS) analysis and sequenced the PCR products. We were able to obtain both IgH sequences from 12 patients. FACS suggested biclonality in one case, which also correlated with sequencing results as both IgH rearrangements were in-frame. Recently, we reported a patient who sustained transformation into an aggressive disease after biIgH was detected in the setting of monoclonal disease (Cerny et al., 2003b, Haematologica 88(05):ECR15 B.). We decided to compare clinical characteristics and prognosis of 17 pts with biIgH and 37 pts with monoIgH rearrangements. Although we found some minor differences in disease characteristics between both groups, these did not translate into a significantly different overall survival. Our findings suggest that true biclonal cases of CLL are rare.     

Distinguishing primary and secondary translocations in multiple myeloma

Multiple myeloma (MM) is a malignant post-germinal center tumor of somatically-mutated, isotype-switched plasma cells that accumulate in the bone marrow. It often is preceded by a stable pre-malignant tumor called monoclonal gammopathy of undetermined significance (MGUS), which can sporadically progress to MM. Five recurrent primary translocations involving the immunoglobulin heavy chain (IgH) locus on chromosome 14q32 have been identified in MGUS and MM tumors. The five partner loci include 11q13, 6p21, 4p16, 16q23, and 20q12, with corresponding dysregulation of CYCLIN D1, CYCLIN D3, FGFR3/MMSET, c-MAF, and MAFB, respectively, by strong enhancers in the IgH locus. The five recurrent translocations, which are present in 40% of MM tumors, typically are simple reciprocal translocations, mostly having breakpoints within or near IgH switch regions but sometimes within or near VDJ or JH sequences. It is thought that these translocations are caused by aberrant IgH switch recombination, and possibly by aberrant somatic hypermutation in germinal center B cells, thus providing an early and perhaps initiating event in transformation. A MYC gene is dysregulated by complex translocations and insertions as a very late event during the progression of MM tumors. Since the IgH switch recombination and somatic hypermutation mechanism are turned off in plasma cells and plasma cell tumors, the MYC rearrangements are thought to be mediated by unknown mechanisms that contribute to structural genomic instability in all kinds of tumors. These rearrangements, which often but not always juxtapose MYC near one of the strong immunoglobulin enhancers, provide a paradigm for secondary translocations. It is hypothesized that secondary translocations not involving a MYC gene can occur at any stage of tumorigenesis, including in pre-malignant MGUS tumor cells.     

Rearrangement of immunoglobulin heavy chain genes in human T leukaemic cells shows preferential utilization of the D segment (DQ52) nearest to the J region.

The DNA rearrangements leading to the assembly of genes coding for the immunoglobulin heavy chain (IgH) in B cells and the T cell receptor for antigen in T cells are not completely lineage specific. This probably reflects the use of a common recombinase by IgH and the T cell receptor. This paper describes novel observations on the nature of these cross-lineage rearrangements. A high proportion (though not all) IgH rearrangements in human T leukaemic cells involve the D segment nearest to the J region (DQ52). This same D segment is not involved in B cell IgH rearrangements with one important exception, namely a proportion of B cell leukaemic clones with the most primitive B cell precursor phenotype. These observations have potentially important implications for early lymphoid cell differentiation and in particular support the idea that the 3' D plus J region might lie within a limited window of accessibility of the IgH gene in precursor lymphocytes.     

Antibody repertoire development in fetal and neonatal piglets. VI. B cell lymphogenesis occurs at multiple sites with differences in the frequency of in-frame rearrangements

B cell lymphogenesis in mammals occurs in various tissues during development but it is generally accepted that it operates by the same mechanism in all tissues. We show that in swine, the frequency of in-frame (IF) VDJ rearrangements differs among yolk sac, fetal liver, spleen, early thymus, bone marrow, and late thymus. All VDJ rearrangements recovered and analyzed on the 20th day of gestation (DG20) from the yolk sac were 100% IF. Those recovered at DG30 in the fetal liver were >90% IF, and this predominance of cells with apparently a single IF rearrangement continued in all organs until approximately DG45, which corresponds to the time when lymphopoiesis begins in the bone marrow. Thereafter, the proportion of IF rearrangements drops to approximately 71%, i.e., the value predicted whether VDJ rearrangement is random and both chromosomes were involved. Unlike other tissues, VDJs recovered from thymus after DG50 display a pattern suggesting no selection for IF rearrangements. Regardless of differences in the proportion of IF rearrangements, we observed no significant age- or tissue-dependent changes in CDR3 diversity, N region additions, or other characteristics of fetal VDJs during ontogeny. These findings indicate there are multiple sites of B cell lymphogenesis in fetal piglets and differences in the frequency of productive VDJ rearrangements at various sites. We propose the latter to result from differential selection or a developmentally dependent change in the intrinsic mechanism of VDJ rearrangement.     

Focal Distribution of Hepatitis C Virus RNA in Infected Livers

Background

Hepatitis C virus (HCV) is a plus-strand RNA virus that replicates by amplification of genomic RNA from minus strands leading to accumulation of almost one thousand copies per cell under in vitro cell culture conditions. In contrast, HCV RNA copy numbers in livers of infected patients appear to be much lower, estimated at a few copies per cell.

Methodology/Principal Findings

To gain insights into mechanisms that control HCV replication in vivo, we analyzed HCV RNA levels as well as expression of interferon beta (IFNβ) and several interferon stimulated genes (ISGs) from whole liver sections and micro-dissected subpopulations of hepatocytes in biopsy samples from 21 HCV-infected patients. The results showed that intrahepatic HCV RNA levels range form less than one copy per hepatocyte to a maximum of about eight. A correlation existed between viral RNA levels and IFNβ expression, but not between viral RNA and ISG levels. Also, IFNβ expression did not correlate with ISGs levels. Replication of HCV RNA occurred in focal areas in the liver in the presence of a general induction of ISGs.

Conclusion/Significance

The low average levels of HCV RNA in biopsy samples can be explained by focal distribution of infected hepatocytes. HCV replication directly induces IFNβ, which then activates ISGs. The apparent lack of a correlation between levels of IFNβ and ISG expression indicates that control of the innate immune response during HCV infections depends on multiple factors.     

Compartment analysis of T cell receptor gamma--and immunoglobulin V(H) rearrangements by microdissection in patients with malt lymphoma and chronic gastritis with lymphatic hyperplasia.

The interpretation of clonality within H. pylori-associated gastritis and low-grade MALT lymphoma remains controversial. Due to the observation of MALT lymphoma regression after H. pylori eradication, new definitions concerning the border between benign reactive lesions and malignant gastric lymphoma are needed. Gene rearrangements for immunoglobulin heavy-chain in low-grade MALT lymphoma (N= 12) and H. pylori-associated chronic gastritis with lymphatic hyperplasia (N= 13) were analyzed by microdissection and polymerase chain reaction. Furthermore, T cell receptor-gamma chain rearrangements were analyzed by gene scan analysis. In 11 of 12 cases with initial low-grade MALT lymphoma, intraepithelial and subepithelial B cell rearrangements showed a restricted usage of the immunoglobulin heavy-chain 3. In H. pylori-associated chronic gastritis, the intraepithelial B cell compartment showed an oligoclonal the immunoglobulin heavy-chain rearrangement pattern with a predominance of VH3. The subepithelial compartment did not show any restrictive immunoglobulin heavy-chain gene usage. Additionally a mono- to oligoclonal rearrangement pattern of the T cell receptor-y chain was observed in low-grade MALT lymphoma, whereas an oligoclonal pattem was observed in chronic gastritis. Our data provide evidence that low-grade MALT lymphoma may start within the epithelium and subsequently infiltrate the subepithelial compartment. The observation of a mono- to oligoclonal TCR-gamma rearrangement suggests that an antigen selecting process also takes place within reactive T cells. Combining TCR-gamma gene scan analysis with IgH chain rearrangement analysis might help in discriminating between chronic gastritis and initial MALT lymphoma in questionable cases.     

Single-cell cDNA-PCR: removal of contaminating genomic DNA from total RNA using immobilized DNase I.

A procedure utilizing immobilized DNase I that allows the efficient amplification of cDNA by PCR from a single cell in the absence of contaminating genomic DNA is described. DNase I treated, total RNA derived from single cells was reverse transcribed into cDNA followed by PCR using beta-actin and c-fos specific primers that recognize different exons of the respective genes. Amplification products corresponding to cDNA, but not to genomic sequences, were detected after treatment with immobilized DNase I in samples previously shown to be contaminated with genomic DNA. This method allows the efficient removal of DNA contaminating total RNA derived from a single cell.     

Evaluation of novel control elements by construction of eukaryotic expression vectors

A novel mammalian eukaryotic expression vector for the production of immunoglobulin heavy chain (IgH) genes has been designed. This expression vector contains the variable heavy chain (VH) promoter, the IgH intron enhancer (μE) and the IgH 3′ enhancer (3′E). This construct, designated pTIF-1, was stably transfected into the myeloma cell line J558L. A fivefold increase in the expression level of a rearranged IgH gene was observed when using the pTIF-1 vector containing the 3′E compared to an expression vector lacking this enhancer. Interestingly, this positive effect on the expression level of the 3′ enhancer appears to be position independent. The introduction of two recently identified Ig control elements, HS3 and HS4, to the vector cassette did not further elevate the expression level in the cell line tested. The pTIF-1 vector can be used for expression of any antibody specificity, using PCR amplification of the VDJ region of interest. Furthermore, the constant region can easily be exchanged, which further facilitates studies to dissect different effector functions of IgH constant genes.     

Ultrastructural observations in hepatitis C virus-infected lymphoid cells

It is currently unclear whether the hepatocellular damage in chronic hepatitis C virus (HCV) infection is produced through the intrahepatic action of the anti-HCV immune response or through a direct cytopathic effect. In order to investigate the features of HCV replication (morphogenesis and cytopathic effect), we studied the infection of a permissive lymphocytic B cell line, Daudi cells, which were infected with sera of HCV-positive patients, and were examined after various time points under electron microscope. Viral genomic RNA was detected by in situ hybridization, and apoptosis with the terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) method. The amount of viral genomic RNA was observed to increase during infection. HCV replicated rapidly, since characteristics of viral morphogenesis resembling those of yellow fever virus in a hepatoma cell line could be found 2 days after infection. These included the following: a) several viral particles identical in size (about 42 nm) and structure (a spherical 30-nm-sized electron-dense nucleocapsid surrounded by a membrane) to yellow fever virus were present in the cytoplasm of cells displaying already typical signs of the early stage of apoptosis; b) numerous membrane-bound organelles and in particular the endoplasmic reticulum and vacuoles were observed; c) proliferation of membranes was apparent; and d) intracytoplasmic electron-dense inclusion bodies which have been demonstrated to correspond to nucleocapsids for other flaviviruses were detected. Several cells presented electron-dense areas in the endoplasmic reticulum displaying 30-nm circular structures lying among an amorphous material. Striking cytopathic features with ballooning, extremely enlarged vacuoles and signs of apoptosis were found in cells often containing sequestered aggregates of virus-like particles. By in situ hybridization we found that such enlarged cells contained HCV RNA. Our results thus indicate that the ultrastructural features of HCV viral particles and their morphogenesis resemble that of yellow fever virus and dengue virus. In Daudi cells, HCV infection seems to rapidly trigger apoptotic cell death, and efficient release of viral particles does not seem to take place.     

Induction of Intrahepatic HCV NS4B,NS5A and NS5B-Specific Cellular Immune Responses following Peripheral Immunization

Numerous studies have suggested that an effective Hepatitis C Virus (HCV) vaccine must induce strong cytotoxic and IFN-γ+ T cell responses targeting the non-structural region of the virus. Most importantly, these responses must be able to migrate into and remain functional within the liver, an organ known to cause T cell tolerance. Using three novel HCV DNA vaccines encoding non-structural proteins NS4B, NS5A and NS5B, we assessed the ability of peripheral immunization to induce functional intrahepatic immunity both in the presence and absence of cognate HCV antigen expression within the liver. We have shown that these constructs induced potent HCV-specific CD4+ and CD8+ T cell responses in the spleen of C57BL/6 mice and that these responses were detected within the liver following peripheral immunization. Additionally, using a transfection method to express HCV antigen within the liver, we showed that intrahepatic HCV-specific T cells remained highly functional within the liver and retained the ability to become highly activated as evidenced by upregulation of IFN-γ and clearance of HCV protein expressing hepatocytes. Taken together, these findings suggest that peripheral immunization can induce potent HCV-specific T cell responses able to traffic to and function within the tolerant environment of the liver.     

Comparison of indirect and direct in-situ polymerase chain reaction in cell preparations and tissue sections

Different approaches to the in-situ polymerase chain reaction (in-situ PCR) were compared in the detection and in-situ localization of chromosomal translocations (t14; 18) immunoglobulin gene rearrangements and viral DNA (cytomegalovirus, hepatitis B-virus) in cell suspensions, cytospins and tissue sections. Single and multiple primer pairs were compared in the amplification step of indirect in-situ PCR and long genomic probes or internal oligonucleotide probes in the subsequent in-situ hybridization (ISH). For direct in-situ PCR, in which amplification products were directly labeled with digoxigen-in-11-dUTP during PCR and detected immunohistochemically, only single primer pairs were used for amplification. In-situ PCR yielded best results in the cell suspensions and worked less efficiently in cytospins or tissue sections. Quantification of the results obtained in artificial cell mixtures yielded only an approximate correlation between the number of expected and observed positive cells. The specificity of the results was greater with indirect in-situ PCR than direct in-situ PCR, where false positive results were frequent. Successful indirect in-situ PCR in tissue sections required the use of multiple primer pairs for amplification and genomic probes for detection by ISH. False positive results in direct in-situ PCR were caused by primer-independent, but DNA polymeraseand cycling-dependent incorporation of digoxigenin-labeled nucleotides into cellular DNA, possibly related to DNA repair and/or internal priming. Non-specific results were most marked in tissue sections and were much less frequent in cell suspensions. In-situ PCR includes a number of different techniques, which are not equally applicable to different starting materials. Accurate interpretation of the results requires vigorous controls.     

乙型肝炎病人重叠感染丙型肝炎的评价

应用ＥＬＩＳＡ和ＰＣＲ法检测５０２例乙肝病人血清,４０１例ＨＢｓＡｇ阳性血清中,有１１４例（２８．４％）抗－ＨＣＶ和ＨＣＶＲＮＡ双项阳性,２５例（６．２％）ＨＣＶＲＮＡ单项阳性;２１例（５．２％）抗－ＨＣＶ单项阳性。将ＨＢｓＡｇ乙肝病人分成ＨＢＶＤＮＡ,ＨＢｅＡｇ阳性组和ＨＢＶＤＮＡ,ＨＢｅＡｇ阴性组。前者抗－ＨＣＶ阳性率为１１．６％～２０．５％,ＨＣＶＲＮＡ阳性率为１６．２％～２０．５％。后者抗－ＨＣＶ阳性率为２０．２％～５５．６％,ＨＣＶＲＮＡ阳性率为２３％～６０．３％。结果说明长期携带ＨＢＶ者和慢性乙肝病人均可重叠ＨＣＶ感染。ＨＢＶＤＮＡ阳性组抗－ＨＣＶ和ＨＣＶＲＮＡ阳性率明显高于ＨＢＶＤＮＡ阳性组     

Autoantibody-encoding kappa L chain genes frequently rearranged in lambda L chain-expressing chronic lymphocytic leukemia

Patients with kappa L chain expressing chronic lymphocytic leukemia (CLL) frequently have leukemia cells reactive with a murine mAb, designated 17.109. Raised against a monoclonal IgM rheumatoid factor autoantibody, this mAb recognizes a major kappa-L chain-associated cross reactive Id, designated 17.109-CRI. Molecular studies reveal that the 17.109-CRI in CLL is a serologic marker for expression of a conserved kappa L chain V region gene (V Kappa gene) of the V Kappa 3 subgroup, designated Humkv325. We isolated an upstream gene fragment of Humkv325 to examine for Ig gene rearrangements of this and other closely related V Kappa 3 genes by Southern analyses. Consistent with Humkv325 encoding the 17.109-CRI, we find that the genomic DNA from all 17.109-reactive leukemia cell populations have gene rearrangements that are detected using this probe. In addition, we observe V Kappa 3 gene rearrangements frequently in the genomic DNA of lambda L chain-expressing leukemia cells. Of the genomic DNA from 33 lambda-L chain-expressing CLL samples, 8 (24%) had additional nongerm-line bands detected with the Humkv325 probe. Consistent with these bands representing Ig gene rearrangements, the additional band in each but one sample also hybridized with probes specific for the J Kappa region and/or the kappa-deleting element. Using the polymerase chain reaction (PCR), we examined the genomic DNA from all lambda L chain-expressing CLL for V Kappa 3 gene rearrangements to J Kappa and/or Kde. PCR on each DNA sample with V Kappa 3 gene rearrangements detected by Southern analysis generated gene fragments that hybridized specifically with oligonucleotides corresponding to framework or CDR of the Humkv325 gene. Nucleic acid sequence analyses of representative samples confirmed that these DNA contained abortive Humkv325 gene rearrangements. PCR for rearranged V Kappa 3 genes in the DNA of other lambda-L chain-expressing CLL either did not generate any PCR product or produced fragments that failed to hybridize with all Humkv325 oligonucleotide probes. Nucleic acid sequence analyses of the latter demonstrated that these represent abortive V Kappa gene rearrangements involving another conserved V Kappa 3 gene, designated Vg. These studies indicate that Humkv325 and Vg frequently may undergo Ig gene rearrangement independent of their expression. As such, the frequent use of Humkv325 in CLL may be secondary, in part, to an enhanced propensity of this V Kappa 3 gene to undergo genetic rearrangement during B cell ontogeny.     

Endogenous Hepatitis C Virus Homolog Fragments in European Rabbit and Hare Genomes Replicate in Cell Culture

Endogenous retroviruses, non-retroviral RNA viruses and DNA viruses have been found in the mammalian genomes. The origin of Hepatitis C virus (HCV), the major cause of chronic hepatitis, liver cirrhosis, and hepatocellular carcinoma in humans, remains unclear since its discovery. Here we show that fragments homologous to HCV structural and non-structural (NS) proteins present in the European rabbit (Oryctolagus cuniculus) and hare (Lepus europaeus) genomes replicate in bovine cell cultures. The HCV genomic homolog fragments were demonstrated by RT-PCR, PCR, mass spectrometry, and replication in bovine cell cultures by immunofluorescence assay (IFA) and immunogold electron microscopy (IEM) using specific MAbs for HCV NS3, NS4A, and NS5 proteins. These findings may lead to novel research approaches on the HCV origin, genesis, evolution and diversity.     

The lymphoid past of mouse plasmacytoid cells and thymic dendritic cells

There has been controversy over the possible lymphoid origin of certain dendritic cell (DC) subtypes. To resolve this issue, DC and plasmacytoid pre-DC isolated from normal mouse tissues were analyzed for transient (mRNA) and permanent (DNA rearrangement) markers of early stages of lymphoid development. About 27% of the DNA of CD8(+) DC from thymus, and 22-35% of the DNA of plasmacytoid pre-DC from spleen and thymus, was found to contain IgH gene D-J rearrangements, compared with 40% for T cells. However, the DC DNA did not contain IgH gene V-D-J rearrangements nor T cell Ag receptor beta gene D-J rearrangements. The same DC lineage populations containing IgH D-J rearrangements expressed mRNA for CD3 chains, and for pre-T alpha. In contrast, little of the DNA of the conventional DC derived from spleen, lymph nodes, or skin, whether CD8(+) or CD8(-), contained IgH D-J rearrangements and splenic conventional DC expressed very little CD3 epsilon or pre-T alpha mRNA. Therefore, many plasmacytoid pre-DC and thymic CD8(+) DC have shared early steps of development with the lymphoid lineages, and differ in origin from conventional peripheral DC.     

A dose response for radiation-induced intrachromosomal DNA rearrangements detected by inverse polymerase chain reaction.

X-ray-induced intrachromosomal DNA rearrangements were detected in the 5' region of the MYC gene of cells of the human bladder carcinoma cell line, EJ-30, by using PCR with inverted primers. When the cells were allowed to repair/misrepair for 6 or 23 h after irradiation, the frequency of rearrangements increased with dose from (0.7 +/- 0.4) x 10(-5) per copy of MYC for unirradiated cells to (3.2 +/- 0.7) x 10(-5) after 30 Gy, (5.4 +/- 1.2) x 10(-5) after 70 Gy, and (5.9 +/- 1.0) x 10(-5) after 100 Gy. No significant difference was observed between 6 and 23 h of repair. Sequences obtained from the products suggest that there was no homology between the two sequences involved in the recombination event and that there was no clustering of breakpoints. The procedure is relatively simple, requiring only one digestion with a rare-cutting restriction enzyme prior to PCR amplification of the DNA purified from irradiated cells. The site of enzyme digestion is located between a pair of primer sites 120 bp apart for which the primers face in opposite directions. If no intrachromosomal rearrangement has occurred, no PCR product would be obtained. However, if an intrachromosomal rearrangement has occurred between two regions located on either side of the primer sites, an episome or duplication event would result if the rearrangement had occurred either within the same chromatid or between two sister chromatids, respectively. Digestion between the primers would linearize an episome or release a linear molecule containing the duplicated primer sites from a larger molecule. After both types of rearrangement events, the primers would be facing each other and would be located on either end of the linear molecule; and if they are less than approximately 5 kb apart, PCR amplification should result in a product. This procedure is relatively simple and rapid and does not require any cell division after irradiation or phenotypic selection of mutants. Also, quantification is based on the number of PCR products detected in a known amount of DNA, and not on a precise determination of the amount of PCR amplification that has occurred. Thus the inverse PCR procedure has the potential ofbeing used as an assay to detect variations in radiation-induced frequencies of DNA rearrangements.