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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This study characterizes antigen-induced phenotypic and functional aspects of major histocompatibility complex (MHC) class II expression on recirculating T cells in efferent lymph. In vivo secondary, but not primary challenge is associated with both kinetic and phenotypic alterations in class II expression by T cells. All three major T cell subsets, CD4+, CD8+ and T19+ (gamma delta
T cell receptor
), show an approximate four fold increase in the level of MHC class II expression during secondary responses. No changes in B cell expression of class II were seen. Resting efferent lymph T cells are predominantly either class II- or DR+DQ- but this changes to DR+DQ+ after antigenic challenge. The antigen-presenting function of these class II+ T cells was investigated at daily intervals after in vivo antigenic challenge. T cells from non-activated lymph nodes could not induce proliferation of antigen-specific T cells with soluble antigen but were weakly stimulatory in allo-mixed lymphocyte reaction (MLR) at high (> 2:1) stimulator cell ratios. Activated T cells isolated during secondary in vivo responses, and expressing increased quantities of MHC class II, were positive stimulator cells in the MLR. In contrast these cells could not present soluble antigen or
trypsin
-digested antigen to the T cell lines. In the MLR assays, the relative stimulation by class II+ T cells correlates with the levels of class II expression. We conclude from these experiments that both quantitative and qualitative changes in MHC class II, induced on T cells under physiological conditions, play a role in the regulation of the immune response in vivo but that that role is not simply one of presentation of soluble antigen.
...
PMID:Patterns of major histocompatibility complex class II expression by T cell subsets in different immunological compartments. 2. Altered expression and cell function following activation in vivo. 822 65
We have previously found that the development of T cells predominantly of the
T cell receptor
alpha beta T cell lineage, which is comparable to that in the organ culture (OC) of fetal thymus at the air-medium border (AMB), could be induced in submersion OC of murine fetal thymus if the cultivation was performed in an environment containing O2 at 60-80%. This culture method is named high oxygen submersion (HOS)-OC. In the present work, we established a culture system where T cell development can be induced from thymic as well as fetal liver progenitors by cocultivating them in a 96-well U-bottom plate with a deoxyguanosine (dGuo)-treated fetal thymus lobe under HOS conditions. Differentiation and growth of T cells in this culture system were comparable to those seen in the previously devised micro i.t. system, where progenitor cells were injected with a microinjector into dGuo-treated lobes and were cultured under AMB conditions. A similar level of T cell development was induced by cocultivating such progenitors with small fragments of thymus lobes under HOS conditions. Moreover, it was possible to induce T cell development by culturing fetal thymus cells with thymic stromal cells prepared by treating dGuo-treated lobes with
trypsin
plus EDTA in a V-bottom plate under HOS conditions.
...
PMID:A novel culture system for induction of T cell development: modification of fetal thymus organ culture. 852 5
This study was conducted to determine whether serine proteinases may induce [Ca(2+)]i mobilization in different hematopoietic cell lines and to analyze their mechanisms of action. We show that in addition to thrombin and thrombin receptor agonist peptide (TRP, SFLLRN),
trypsin
induced [Ca(2+)]i mobilization in a highly thrombin-sensitive Jurkat T cell clone. Thrombin, TRP, and
trypsin
were found to induce [Ca(2+)]i release in three different Jurkat T cell clones differing in the level of
T cell receptor
expression. Similar results were obtained with a prothymocytic leukemic cell line, HPB.ALL, although these cells were much more responsive to
trypsin
than to thrombin and TRP. Other cell types such as THP1, a myelomonocytic cell line, or CEM, a CD4(+) positive leukemic cell line, were unresponsive to thrombin, TRP, and
trypsin
. The effect of
trypsin
was mimicked by SLIGRL, a peptide corresponding to the cleaved amino-terminal sequence of the recently characterized murine
trypsin
-activated receptor (PAR2). At suboptimal concentrations, the effects of SFLLRN and SLIGRL were additive, whereas saturating doses of peptides did not further increase [Ca(2+)]i mobilization in Jurkat T cells, indicating that both peptides were able to mobilize the same pool of calcium. Northern blot analysis of mRNAs from different leukemic cell lines indicated a remarkable correlation between PAR2 expression in different cell lines and SLIGRL or
trypsin
responses in the same cells. The expression of the "trypsin receptor" was also confirmed by polymerase chain reaction analysis. Moreover, a 24 h treatment of Jurkat cells by an anti-CD3 monoclonal antibody, a condition known to down-regulate thrombin receptor expression, induced loss of thrombin and TRP responses but only partially affected
trypsin
stimulation of [Ca(2+)]i release. Finally, after a first stimulation with either thrombin or
trypsin
, Jurkat cells were still able to respond to
trypsin
or thrombin, respectively, demonstrating that thrombin and
trypsin
essentially activated their own receptors. Our data provided evidence that 1) the human T leukemic cell line Jurkat and other T cell lines express at least two different functional protease-activated receptors, the thrombin receptor and a highly sensitive
trypsin
receptor, likely the human counterpart of the murine PAR2, and 2) at variance with the commonly accepted model,
trypsin
exerts most of its effect in T leukemic cell lines by thrombin receptor-independent mechanisms.
...
PMID:Thrombin and trypsin-induced Ca(2+) mobilization in human T cell lines through interaction with different protease-activated receptors. 864 64
Thymocytes with a CD4(hi)CD8(lo) coreceptor-skewed (CRS) phenotype have been shown to contain precursors for CD8 single-positive (SP) thymocytes, in addition to precursors for CD4 SP cells. The selection mechanisms that stimulate CD4(hi)CD8(lo) cells to revert to the CD8 lineage are not known. Mice transgenic (tg) for the major histocompatibility complex (MHC) class I-restricted P14
T cell receptor
(
TCR
), on the H-2bm13 background, generate a large number of CD4(hi)CD8(lo) CRS thymocytes. We analyzed the developmental potential and the differentiation requirements of the CD4(hi)CD8(lo) population of these mice. Using reaggregate thymic organ cultures (RTOC), we observed that these cells efficiently and almost exclusively differentiate into CD8 SP cells. Differentiation occurred independent of whether or not the MHC haplotype of the thymic stroma corresponds to the MHC restriction of the tg
TCR
. Loss of CD4 was independent of thymic stroma, up-regulation of CD8 to full levels was dependent on thymic stroma but independent of MHC haplotype. After
trypsin
treatment and overnight incubation, these CRS cells re-expressed CD8 but failed to re-express CD4, indicating that they are in the process of terminating CD4 synthesis. CD8 SP cells derived from the CRS cells proliferate in response to peptide-pulsed antigen-presenting cells. Our data suggest that CD4(hi)CD8(lo) CRS thymocytes bearing the P14 tg
TCR
have completed positive selection and differentiate autonomously into functionally competent CD8 SP cells.
...
PMID:Differentiation of CD4(high)CD8(low) coreceptor-skewed thymocytes into mature CD8 single-positive cells independent of MHC class I recognition. 929 41
Protein purification development is the bottleneck of recombinant protein production therefore there is a need to shorten process development and monitoring. Surface enhanced laser desorption/ionization-mass spectrometry (SELDI-MS) was evaluated to optimize the expression and to develop the purification of a recombinant mouse protein: a transmembrane adaptor involved in
T cell receptor
signaling named "linker for activation of T cells" (LAT). The protein was expressed as a soluble form (S-LAT) in three strains of Escherichia coli: BL21 (DE3), Rosetta (DE3), and BL21 (DE3) pLys S. The expression of S-LAT was monitored on immobilized metal affinity chromatography (IMAC) ProteinChip arrays. The highest level of expression was found in Rosetta (DE3) with a C-terminal construct after induction at 37 degrees C. The purification scheme was elucidated using SELDI-MS: S-LAT was efficiently captured on an IMAC ProteinChip array saturated with nickel ions (Ni(2+)) and then fractionated on a Q ProteinChip array. These conditions were directly transferred to IMAC-Ni(2+) HyperCel and Q Ceramic HyperD F chromatography sorbents. After these two purification steps, S-LAT was estimated to be more than 80% pure, confirming a very good match between array and sorbent. Finally, a peptide mapping was performed on a hydrophobic array after in gel
trypsin
digest, verifying that the purified protein was the mouse LAT. This is the first report of a protocol for the production and purification of S-LAT. The selection of the best expression and purification strategy along with the identification were enabled in 5 days with less than 5 mL of soluble fraction of crude culture samples.
...
PMID:Expression optimization and purification process development of an engineered soluble recombinant mouse linker of activation of T cells using surface enhanced laser desorption/ionization-mass spectrometry. 1660 Jun 31
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