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

---

Query: EC:3.4.21.79 (granzyme B)
3,301 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monitoring of human allografts requires to use histological, immunohistochemical and functional techniques to characterize graft infiltrating cells. Granzyme B and perforin gene expression is of major importance in functional studies. Those proteins are present in the cytoplasmic granules of cytotoxic T lymphocytes and are secreted during granule exocytosis at the effector/target cell interface. Gene expression of both proteins has been studied by in situ hybridization using specific riboprobes on serial sections of biopsies in two pathological models. Our results show that cells infiltrating early skin lesions of patients with acute GVHD after bone marrow graft are exclusively composed of T cells, among which some of them express granzyme B and perforin genes. Similarly the presence of granzyme B and perforine-expressing cells in endomyocardial biopsies of heart transplanted patients has been associated to early and severe crisis of rejection. In contrast, the absence of functional markers in lymphoid infiltrates was coinciding with less aggressive and late episodes of rejection. Taken together, our data indicate that granzyme B and perforin gene expression in skin infiltrating lymphocytes during GVH or within heart infiltrating cells during crisis of rejection are in favor of severe processes. The study has allowed to predict during heart transplantation the apparition of a rejection crisis and to show the necessity for treating the patient with immunsuppresive drugs. This is also the case for patients with GVHD at the time of the first skin rash.
...
PMID:Perforin and granzyme B: predictive markers for acute GVHD or cardiac rejection after bone marrow or heart transplantation. 181 99

Granzyme F belongs to a closely related family of seven murine serine proteases stored in cytoplasmic granules of lymphoid cell populations. In contrast to the murine granzymes A to E and G, granzyme F is exclusively expressed in the CD4-CD8+ subset of peripheral T cells. To characterize the genomic sequences responsible for its highly restricted expression, we isolated a cosmid clone and sequenced a 7.5-kb genomic fragment that contains the promoter region and all five exons of the murine granzyme F gene. A TATA box sequence is located at position -25 relative to the transcription initiation site, which was determined by RNase protection. The genomic organization of granzyme F is similar to that of granzyme B and granzyme C, leukocyte elastase, cathepsin G, rat mast cell protease II, and complement factor D (adipsin). By the use of two fluorochromes for simultaneous high resolution in situ hybridization, the granzyme F gene was localized in close proximity distally from the TCR alpha-chain locus on mouse chromosome 14.
...
PMID:Genomic organization and subchromosomal in situ localization of the murine granzyme F, a serine protease expressed in CD8+ T cells. 186 Oct 68

Cytoplasmic granules from activated natural killer (NK) and cytotoxic T lymphocytes (CTL) contain a pore-forming protein, perforin, and several homologous serine proteinases called granzymes. Expression of these proteins correlates with the cytolytic potential of cytotoxic lymphocytes. Using a panel of MoAbs specific for human granzyme A and B, respectively, expression of these proteinases in non-pathological lymphoid tissue and peripheral blood lymphocyte (PBL) subpopulations was investigated. Using immunohistochemistry and double stainings, the phenotype of granzyme-expressing cells in lymphoid tissue was investigated. Granzyme-positive cells were detected in all lymphoid tissues tested. No large differences in the number and distribution between granzyme A- and granzyme B-positive cells were observed. The highest number of positive cells was located in the red pulp of the spleen. Significant numbers were detected in tonsil, lymph nodes, liver and thymus. Low numbers were present in the lamina propria of non-inflamed stomach, small intestine and colon. Phenotypic analysis and cell sorting showed that most of the granzyme-positive cells in lymphoid tissue and PBL consisted of CD3-CD16+CD56+ lymphocytes. Hardly any granzyme-positive CD3+CD8+ CTL were present in peripheral blood. The synthesis of granzyme A as well as B by both CD3+CD16+CD56+ and CD3+CD8+ cells in peripheral blood was increased upon IL-2 stimulation. These results indicate that in normal lymphoid tissue the predominant cytolytic cell population is formed by the NK cells, and activated CTL are rare.
...
PMID:Localization and identification of granzymes A and B-expressing cells in normal human lymphoid tissue and peripheral blood. 769 16

During development, thymocytes express a number of genes typical for activated peripheral T lymphocytes, including granzymes. We have now analyzed by reverse transcription-polymerase chain reaction (RT-PCR), immunohistochemistry, and cytochemistry fetal liver cells and thymocytes at various developmental stages for the expression of granzyme A-G genes. At days 13-17 of gestation, only granzyme B but none of the other granzymes is expressed in fetal liver. In the most immature, Pgp-1+IL2R alpha-, thymocyte subpopulation mRNAs for granzymes A-C but not for granzymes D-G are detectable. Upon further differentiation via Pgp-1-IL-2R alpha + into more mature Pgp-1-IL-2R alpha- thymocytes the level of expression of granzymes A, B, and C gradually declines reaching its lowest level at the CD4+ 8+ double positive stage. In fetal thymic lobes depleted of lymphoid cells by treatment with deoxyguanosine, no transcripts for granzymes A, B, and C were found indicating that the PCR signals are derived exclusively from early precursor T/natural killer (NK) lineage cells rather than from residual stromal elements. In mature CD4+CD8- and CD4-CD8+ thymocytes, granzyme B mRNA is found at similar levels in both subsets whereas granzyme A mRNA is expressed selectively in the CD4-CD8+ subset. Enzymatic activity of granzyme A was only seen in a fraction of CD4-CD8+ thymocytes negative for heat stable antigen (HSA) but not in the more immature HSA+ fraction of CD4-CD8+ thymocytes. The data suggest that (a) granzyme B is a pro-thymocyte marker for all T/NK lineage cells; (b) granzyme A transcripts are associated with thymocytes with the potential to develop into the CD8+ lineage; and (c) granzyme A enzymatic activity is only expressed in the most mature CD4-CD8+ stage, suggesting that granzyme proteins are not involved in early stages of thymocyte development.
...
PMID:Transcription of granzyme A and B genes is differentially regulated during lymphoid ontogeny. 783 27

This report describes a simple scheme for the simultaneous purification of cationic human granzymes A, B, and 3 from human interleukin 2 (IL-2)-activated lymphocytes. The process, which requires approximately 8 h, includes: (1) cell cavitation, (2) two centrifugation steps, (3) four granule solubilization steps, and (4) cation-exchange chromatography. Granule solubilization consists of three extractions with a hypotonic buffer (25 mM NaCl) that contained Triton X-100 followed by a final extraction in hypertonic detergent-free buffer (390 mM NaCl). We recovered approximately 35% of the trypsin-like (tryptase) activities mediated by granzymes A and 3, respectively, and approximately 25% of the asp-ase activity of granzyme B. The granzymes were identified after elution from the Mono S column by Western blot with a polyclonal antibody that reacts with a conserved amino acid sequence (9-16) of lymphoid/myeloid serine proteases. By amino-terminal sequencing, eluted granzyme A and B were indeed homogeneous. Granzyme 3, although highly enriched, appears to be contaminated with an uncharacterized granzyme. Although we have developed this scheme to rapidly isolate the granzymes, the procedure should assist the purification of secretory granule-associated cationic proteins that reside in neutrophils and mast cells as well as other cells that possess secretory function.
...
PMID:Rapid purification of cationic granule proteases: application to human granzymes. 825 51

Cartilage degradation, a hallmark of rheumatoid arthritis, is attributed to serine and metalloproteases secreted by neutrophils, synovial lining cells, macrophages, and chondrocytes. A large proportion of synovial fluid lymphocytes contains the granule-associated serine proteases granzymes A and B. We report that lysates of IL-2-stimulated lymphocytes contain an enzymatic activity (ECMase; cartilage extracellular matrix 35S release assay; extracellular matrix degrading activity) that solubilizes matrix synthesized by chondrocyte monolayers. ECMase activity is inactivated by the serine protease inhibitor diisopropylfluorophosphate, is stored in dense granules and cleaves aggrecan proteoglycans but not free glycosaminoglycans, hyaluronic acid, or type II collagen. ECMase is mediated by a cationic protein with biochemical properties identical to granzyme B, inasmuch as it preferentially hydrolyzes the substrate Boc-Ala-Ala-Asp-SBzl, immunochemically cross-reacts with an antibody that binds to a conserved amino-terminal region of lymphoid-myeloid serine proteases, and has amino-terminal sequence identity with human Q31 granzyme B. Using an agarose gel electrophoresis technique to assess cleavage of the rat sarcoma aggrecan, the catalytic efficiency of granzyme B for the digestion of aggrecan (catalytic efficiency = 1.7 x 10(7) M-1 s-1) was 425-fold faster than the catalytic efficiency reported for human stromelysin-1 at pH 7.5 (catalytic efficiency 4000 M-1 s-1) and 3200-fold faster than granzyme A. Based on these observations, we propose that granzyme B, secreted from cytotoxic lymphocytes within the rheumatoid joint, may contribute to cartilage loss by degrading resident aggrecan.
...
PMID:Human granzyme B degrades aggrecan proteoglycan in matrix synthesized by chondrocytes. 825 16

Reed-Sternberg (RS) and Hodgkin's (H) cells are considered to be the neoplastic cells in Hodgkin's disease. Although most data suggest a lymphoid origin, the nature of these cells still remains the subject of considerable controversy. Recently, monoclonal antibodies became available, directed against granzyme B, a serine protease specifically expressed by activated cytotoxic T cells (CTLs) and natural killer (NK) cells. Using two granzyme B-specific antibodies directed against different epitopes, we studied the expression of granzyme B in a well characterized group of Epstein-Barr virus (EBV)-positive and EBV-negative cases of Hodgkin's disease. Granzyme B expression was found in part of the H-RS cells in 11 out of 61 tested cases (18%, 9 of 46 cases of nodular sclerosing and 1 of 12 mixed cellularity Hodgkin's disease). In none of these cases did H-RS cells express B-cell markers, whereas in four cases, expression of either the T-cell marker CD3 or CD8 was found in a small minority of H-RS cells. The percentage of granzyme B-positive H-RS cells ranged from < 10% to > 50%. Granzyme B-positive H-RS cells were present in 6 of 26 EBV-positive cases and in 5 of 35 EBV-negative cases, indicating no relationship with the presence of EBV. Moreover, no significant differences were found regarding either stage at presentation or clinical outcome. We conclude that in a restricted number of cases of Hodgkin's disease, the H-RS cells express granzyme B, and therefore might be considered the neoplastic equivalent of either activated CTLs or NK cells.
...
PMID:Granzyme B expression in Reed-Sternberg cells of Hodgkin's disease. 854 10

To further specify the cellular origin and nature of anaplastic large-cell lymphoma (ALCL) and its relationship to other lymphoid neoplasms, particularly Hodgkin's disease (HD), we investigated the presence of cytotoxic molecules in a large well-characterized series of these tumors. For expression of the cytotoxic molecules perforin and granzyme B, in situ hybridization (ISH) and immunohistology were used, respectively. Overall, 23 of 25 ALCLs of T/null phenotype and five (three mixed cellularity and two nodular sclerosis) of 57 HD cases showed the presence of perforin transcripts and/or granzyme B molecules in neoplastic cells. Polymerase chain reaction (PCR) analysis of ALCLs showed that most (10 of 11) cases of null-cell ALCL (null-ALCL) contained a clonal rearrangement of T-cell receptor beta-chain genes, as did T-cell ALCL (T-ALCL; 9 of 10 cases). However, both cytotoxic molecules and clonally rearranged T-cell receptor beta-chain genes were absent in seven of seven and eight of nine cases of B-cell ALCL (B-ALCL), respectively. These data show that all or nearly all T-ALCLs, irrespective of the clinical subform or the lack of T-cell-associated molecules, are derived from activated cytotoxic T cells. The same appears to be true for the neoplastic cells of rare HD cases. These findings indicate that T-ALCLs are different from B-ALCLs and the majority of HD cases, and suggest that some HD cases, especially those with T-cell antigen-positive tumor cells, may be closely related to T-ALCL, at least in terms of cellular origin.
...
PMID:Anaplastic large-cell lymphomas of T-cell and null-cell phenotype express cytotoxic molecules. 891 67

Twelve lymph node specimens with necrotizing lymphadenitis and which had florid necrotic lesions were studied immunohistochemically. The majority of viable lymphoid cells in the necrotic foci were CD8+ lymphocytes and KP1+ or PGM1+ phagocytizing macrophages. The CD8+ T cells were Leu1+, Leu2+, Leu3-, Leu4+, Leu5b+, Leu7-, Leu11b- and Leu19-, indicating a suppressor/cytotoxic T cell phenotype. In addition, the cytoplasm of these cells was immunoreactive for perforin and granzyme B in a granular pattern. With a nick end-labeling technique, fragmented nuclei and some lymphoid cell nuclei were positively stained. These results suggest that the necrosis in necrotizing lymphadenitis is apoptotic necrosis of T cells targeted by CD8+, perforin and granzyme-producing, activated cytotoxic T cells, supporting a viral infection etiology.
...
PMID:Immunohistochemical study of necrotizing lymphadenitis: a possible mechanism for apoptosis involving perforin and granzyme-producing cytotoxic T cells. 905 90

During HIV infection the architecture of secondary lymphoid tissues is severely disrupted. In particular the germinal centers, which play a key role in the orchestration of the secondary immune response, undergo gross phenotypic alterations, leading to a complete destruction of the germinal center microenvironment. The precise mechanisms responsible for the lymphoid tissue destruction in HIV infection are still unknown. However, the large influx of CD8+ T lymphocytes suggests an important role for T cell-mediated cytotoxicity. To establish whether the infiltrating CD8+ T lymphocytes are killing competent, we investigated the expression of granzyme B, which is known to be present in the cytotoxic granules of NK cells and "activated" CTLs with cytolytic potential. We observed a 20-fold increase in the percentage of granzyme B-expressing CD8+ T cells in both the germinal center and the interfollicular areas in HIV patients relative to HIV-negative controls. This increase was present in patients with early-stage disease (i.e., absolute CD4+ T cell count > 500/microliters) as well as in patients with intermediate and late-stage disease. Thus, from relatively early stages of HIV infection onward large numbers of killing competent T lymphocytes are present in the lymphoid tissues, a finding that supports the notion that CTL act as mediators of destruction of immune function during HIV infection.
...
PMID:Expression of granzyme B by cytotoxic T lymphocytes in the lymph nodes of HIV-infected patients. 911 9


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

---