UNIPROT:P06889 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UNIPROT:P06889 (Mol)
630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The B-lymphocyte-specific activity of the immunoglobulin mu heavy-chain gene enhancer has been attributed to the octamer motif (ATTTGCAT) present within the enhancer that binds a B-cell-specific factor designated NF-A2/OTF-2. However, significant residual enhancer activity even after deletion of this element has suggested the presence of a second critical functional determinant. We have used deletion and mutational analyses to define an element, microB (TTTGGGGAA), that is essential for B-cell-specific enhancer activity in S194 myeloma cells in the absence of the octamer. Transfection analysis in a panel of lymphoid cell lines suggests that the presence of either microB or octamer leads to considerable enhancer activity in cell lines representing later stages of B-cell differentiation, whereas both elements are needed for function in cell lines representing earlier stages. Furthermore, in contrast to the results in pre-B-cell lines, both microB and octamer elements function independently in certain T-cell lines in which the mu enhancer is active.
Mol Cell Biol 1990 Jun
PMID:Complex regulation of the immunoglobulin mu heavy-chain gene enhancer: microB, a new determinant of enhancer function. 211 46

To determine whether enhancer elements in addition to the highly conserved octamer (OCTA)-nucleotide motif are important for lymphoid-specific expression of the immunoglobulin heavy-chain (IgH) gene, we have investigated the effect of mutating the binding site for a putative additional lymphoid-specific transcription factor, designated NF-microB, in the murine IgH enhancer. We demonstrate that the NF-microB-binding site plays a critical role in the IgH enhancer, because mutation of the microB DNA motif decreased transcriptional activity of the IgH enhancer in cells of the B-cell lineage but not in nonlymphoid cells. This effect was comparable to or even stronger than the effect of a mutation in the OCTA site. Moreover, combined mutation of both microB and OCTA sites further reduced enhancer activity in lymphoid cells. Interestingly, alteration of either the microB or E3 site in a 70-base-pair fragment of the IgH enhancer that lacks the binding site for OCTA abolished enhancer activity in lymphoid cells completely. Nevertheless, a multimer of the microB motif alone showed no enhancer activity. DNase footprinting analysis corroborated the functional data showing that a lymphoid-specific protein binds to the microB DNA motif. Our results suggest that the microB element is a new crucial element important for lymphoid-specific expression of the IgH gene but that interaction with another enhancer element is essential for its activity.
Mol Cell Biol 1990 Jun
PMID:Involvement of a second lymphoid-specific enhancer element in the regulation of immunoglobulin heavy-chain gene expression. 211 47

The hybridoma genomes contain polyploid sets of immunoglobulin genes. We have shown, that the hybridoma PTF-02 genome contains three genes of heavy chains and two genes of light chains. The genes responsible for antibody synthesis were cloned and their structure were determined. Investigation of the kappa gene transcription and its fragments which contain regulatory sequences revealed a nuclear factor. The latter interacts with the octanucleotide localized at the promoter region of the kappa gene. The purified factor activates the transcription of the kappa gene in a heterologous cell-free system. Together with the tissue-specific factor there is also an universal factor interacting with the octanucleotide sequence. We have shown an additional factor in lymphoid cells interact with the protein which binds to the octanucleotide sequence. We have shown an additional factor in lymphoid cells interacting with the protein which binds to the octanucleotide sequence. As a result, there is a family of factors which interact with ATTTGCAT sequence. One major factor (m.w. 60 +/- 2 kDa) is an obligatory component for the initiation of immunoglobulin genes transcription.
Mol Biol (Mosk)
PMID:[Immunoglobulin genes in lymphoid cells and regulation of their transcription]. 211 92

The lck gene, which encodes the lymphoid cell-specific tyrosine protein kinase p56lck, is expressed from two widely separated promoters. The proximal promoter gives rise to a type I lck transcript, and the distal promoter gives rise to a type II transcript. We found that the ratio of the two transcripts changed during T-cell maturation. Type I lck mRNA was twofold more abundant than the type II transcript in early fetal thymocytes. In the adult, the type I and type II lck mRNAs were present in approximately equal amounts in immature thymocytes expressing the heat-stable antigen. In contrast, there was five- to ninefold more type II lck than type I lck mRNA in more mature thymocytes that did not express the heat-stable antigen and in splenic T cells. This change in relative transcript abundance probably reflects activation of the distal promoter and inactivation of the proximal promoter during T-cell maturation in the thymus. It is possible that the two promoters are regulated by different trans-acting factors whose expression is regulated during T-cell maturation.
Mol Cell Biol 1990 Aug
PMID:Changes in the relative abundance of type I and type II lck mRNA transcripts suggest differential promoter usage during T-cell development. 211 23

The murine immunoglobulin kappa (kappa) light-chain multigene family includes the constant region (C kappa), joining-region genes, and approximately 30 kappa-variable (V kappa) region families. The entire region occupies an estimated 1,000 to 3,000 kilobases, and some V kappa families have been linked by recombinant inbred mapping. The C kappa gene and 14 V kappa families replicated differently among cell lines of lymphoid and nonlymphoid origin. In nonlymphoid cells, the C kappa gene replicated earlier than the V kappa families. A transition from replication during the second third of S phase for the C kappa gene to later replication during S for V kappa families was observed. The V kappa family (V kappa 21) that maps closest to the C kappa gene, replicated during the first half of the S phase; most of the other V kappa families replicated during the second half of S, and some replicated during the last quarter of the S phase. In lymphoid cells, the kappa locus replicated earlier in the pre-B than in the B-cell lines. In one pre-B-cell line, 22D6, the kappa genes examined replicated at the beginning of the S phase. In the B-cell lines, the EcoRI segment containing the transcribed gene replicated near the beginning of the S phase. Other V kappa families replicated within the first two-thirds of S phase. Some linked V kappa families replicated at similar times. In the B-cell lines, a transition from replication at the beginning of S for the transcribed C kappa and V kappa genes and surrounding DNA sequences to later replication for the other V kappa families was observed. However, in contrast to the non-lymphoid cell lines, the replication of this locus occurred predominantly during the first half of S. The kappa locus contains both early- and late-replicating genes, and early replication is usually associated with transcriptional activity. The results are discussed with respect to the organization of transcriptionally active chromatin domains.
Mol Cell Biol 1990 Aug
PMID:The mouse immunoglobulin kappa light-chain genes are located in early- and late-replicating regions of chromosome 6. 211 25

Immunoglobulin light chains are usually secreted from cells when they are synthesized alone or in molar excess of heavy chains, but, there have been reports of nonsecreted light chains. We wished to determine whether immunoglobulin heavy chain binding protein (BiP), which blocks the transport of free heavy chains, might be responsible for the lack of secretion of some light chains. In two murine lymphoid cell lines that synthesize but do not secrete immunoglobulin light chains, the free light chain polymers were found bound to BiP. Examination of 20 other cell lines and hybridomas failed to disclose any cells synthesizing free or excess light chains that associated with BiP, in all cases the free light chains were secreted as dimers. Despite their association with BiP and their blocked secretion, the aberrant light chains could combine with heavy chains and could be secreted as intact Ig molecules. Thus, while light chains do not usually express signals which allow them to bind to BiP, it appears that such signals can be expressed on certain light chains, resulting in their combination with BiP and blocked secretion. When single chain mutant cell lines are isolated from parental lines producing both heavy and light chains, they are almost always light chain producers suggesting that free heavy chains are much more toxic than free light chains. In both PC700 and P3X63Ag cells, however, clones that have lost either heavy chains or transport-defective light chains are present at the same frequency. Our findings that the light chains in both of these lines are associated with BiP raise the possibility that BiP actually contributes to heavy chain toxicity instead of preventing it.
Mol Immunol 1990 Jul
PMID:Association of transport-defective light chains with immunoglobulin heavy chain binding protein. 211 93

Homozygous mutation at the scid locus in the mouse results in the aberrant rearrangement of immunoglobulin and T-cell receptor gene segments. We introduced a retroviral vector containing an inversional immunoglobulin rearrangement cassette into scid pre-B cells. Most rearrangements were accompanied by large deletions, consistent with previously characterized effects of the scid mutation. However, two cell clones were identified which contained perfect reciprocal fragments and wild-type coding joints, documenting, on a molecular level, the ability of scid pre-B cells to generate functional protein-coding domains. Subsequent rearrangement of the DGR cassette in one of these clones was accompanied by a deletion, suggesting that this cell clone had not reverted the scid mutation. Indeed, induced rearrangement of the endogenous kappa loci in these two cell clones resulted in a mixture of scid and wild-type V-J kappa joints, as assayed by a polymerase chain reaction and DNA sequencing. In addition, three immunoglobulin mu- scid pre-B cell lines showed both scid and wild-type V-J kappa joins. These experiments strongly suggest that the V(D)J recombinase activity in scid lymphoid cells is diminished but not absent, consistent with the known leakiness of the scid mutation.
Mol Cell Biol 1990 Oct
PMID:Wild-type V(D)J recombination in scid pre-B cells. 211 96

Nuclear run-on experiments were used to verify the hypothesis that extinction of expression of Ig synthesis in L cell x myeloma hybrids occurs at the transcriptional level. Both the H chain enhancer and promoter have been shown to be the targets for extinction in myeloma x T cell hybrids. To examine the expression of genes containing the immunoglobulin heavy chain gene (IgH) enhancer in stably transfected non-B cells, we used a vector with two selectable markers, one of which (gpt providing resistance to mycophenolic acid) either lacks an enhancer or contains the IgH enhancer, the other (neo providing resistance to G418) contains an SV40 enhancer. Stable transfectants of both myeloma (J558L) and L cells selected using G418 were tested to determine if they are also mycophenolic acid resistant. When the IgH enhancer is positioned 3' to the gpt gene, transfected J558L are mycophenolic acid resistant whereas stably transfected L-cells are mycophenolic acid sensitive. However, when large numbers of L cell transfectants are exposed to mycophenolic acid for a prolonged period, resistant subclones emerge. When the 700-bp IgH enhancer fragment was used, the majority of the subclones examined had amplified the vector, between 3 and 38 copies; when a 400-bp subfragment was used no change in the integrated genes was seen. In both cases, in the mycophenolic acid resistant subclones, increased accumulation of gpt and neo mRNA is seen. However, the gpt specific transcripts are heterogeneous in size whereas the neo transcripts are of a discrete size. The heterogeneity of the gpt transcripts results at least in part from heterogeneous initiation. When HXM-resistant L cell subclones are fused to the gamm 2b, k myeloma 4T001, extinction of Ig production occurs; therefore these cells are still capable of negatively regulating Ig expression. These results are discussed from the standpoint of both cis and trans regulatory elements and factors in non-lymphoid cells.
Mol Immunol 1990 Aug
PMID:Expression of genes containing the IgH enhancer in non-lymphoid cells. 211 78

The minimal T-cell receptor (TCR) beta-chain (TCR beta) enhancer has been identified by transfection into lymphoid cells. The minimal enhancer was active in T cells and in some B-lineage cells. When a larger fragment containing the minimal enhancer was used, its activity was apparent only in T cells. Studies with phytohemagglutinin and 4 beta-phorbol-12,13-dibutyrate revealed that the enhancer activity was increased by these agents. By a combination of DNase I footprinting, gel mobility shift assay, and methylation interference analysis, seven different motifs were identified within the minimal enhancer. Furthermore, competition experiments showed that some of these elements bound identical or similar factors that are known to bind to the TCR V beta promoter decamer or to the immunoglobulin enhancer kappa E2 or muEBP-E motif. These shared motifs may be important in the differential gene activity among the different lymphoid subsets.
Mol Cell Biol 1990 Oct
PMID:Functional analysis of the murine T-cell receptor beta enhancer and characteristics of its DNA-binding proteins. 214 8

We have isolated cDNA clones complementary to a truncated immunoglobulin heavy-chain C epsilon RNA transcript previously found to be induced in B lymphoid cells by treatment with lipopolysaccharide (LPS) combined with interleukin-4 (IL-4). We demonstrate that this transcript initiates from a promoter upstream of the germ line epsilon class-switch recombination region (S epsilon region). The major germ line C epsilon transcript contains a small 5' exon contributed by sequences upstream of the S epsilon region spliced to the normal C epsilon exons. Treatment of splenic B lymphoid cells with LPS plus IL-4 induces the expression of transcripts from the germ line epsilon transcription unit followed by expression of normal immunoglobulin epsilon heavy-chain mRNA. Furthermore, we demonstrate that similar treatment of transformed precursor B cell lines induces the expression of germ line epsilon transcripts followed by class switching to epsilon expression in these lines. This is the first demonstration of switching to epsilon in cells of the pre-B stage. The general structure of the germ line epsilon transcript and transcription unit is similar to that previously characterized for germ line gamma 2b transcripts. However, expression of these two germ line transcription units in B-lineage cells is inversely regulated by IL-4 (plus LPS) treatment, correlating with the effects of these treatments on switching to these loci.
Mol Cell Biol 1990 Apr
PMID:Structure and expression of germ line immunoglobulin heavy-chain epsilon transcripts: interleukin-4 plus lipopolysaccharide-directed switching to C epsilon. 215 39

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>