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- Akula, Srinivas, et al.
(författare)
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The Evolutionary History of the Chymase Locus -a Locus Encoding Several of the Major Hematopoietic Serine Proteases
- 2021
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Ingår i: International Journal of Molecular Sciences. - : MDPI. - 1661-6596 .- 1422-0067. ; 22:20
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Forskningsöversikt (refereegranskat)abstract
- Several hematopoietic cells of the immune system store large amounts of proteases in cytoplasmic granules. The absolute majority of these proteases belong to the large family of chymotrypsin-related serine proteases. The chymase locus is one of four loci encoding these granule-associated serine proteases in mammals. The chymase locus encodes only four genes in primates, (1) the gene for a mast-cell-specific chymotryptic enzyme, the chymase; (2) a T-cell-expressed asp-ase, granzyme B; (3) a neutrophil-expressed chymotryptic enzyme, cathepsin G; and (4) a T-cell-expressed chymotryptic enzyme named granzyme H. Interestingly, this locus has experienced a number of quite dramatic expansions during mammalian evolution. This is illustrated by the very large number of functional protease genes found in the chymase locus of mice (15 genes) and rats (18 genes). A separate expansion has also occurred in ruminants, where we find a new class of protease genes, the duodenases, which are expressed in the intestinal region. In contrast, the opossum has only two functional genes in this locus, the mast cell (MC) chymase and granzyme B. This low number of genes may be the result of an inversion, which may have hindered unequal crossing over, a mechanism which may have been a major factor in the expansion within the rodent lineage. The chymase locus can be traced back to early tetrapods as genes that cluster with the mammalian genes in phylogenetic trees can be found in frogs, alligators and turtles, but appear to have been lost in birds. We here present the collected data concerning the evolution of this rapidly evolving locus, and how these changes in gene numbers and specificities may have affected the immune functions in the various tetrapod species.
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| 3. |
- Akula, Srinivas, et al.
(författare)
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Quantitative Analysis of the Transcriptome of Two Commonly Used Human Monocytic Cell Lines-THP-1 and Mono Mac 6-Reveals Their Arrest during Early Monocyte/Neutrophil Differentiation
- 2022
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Ingår i: International Journal of Molecular Sciences. - : MDPI AG. - 1661-6596 .- 1422-0067. ; 23:10
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Tidskriftsartikel (refereegranskat)abstract
- Cell lines of monocyte/macrophage origin are often used as model systems to study monocyte/macrophage biology. A relevant question is how similar these cell lines are to their in vivo counterparts? To address this issue, we performed a detailed analysis of the transcriptome of two commonly used human monocyte/macrophage cell lines, Mono Mac 6 and THP-1. Both of these cell lines originate from leukemic cells with myelo-monocytic characteristics. We found that both Mono Mac 6 and THP-1 represent cells of very immature origin. Their transcriptomes show more similarities to immature neutrophils than cells of the monocyte/macrophage lineage. They express significant levels of N-elastase, proteinase 3, cathepsin G, and azurocidin but very low levels of CD14, ficolin, and complement factor P. All major MHC class II genes are also expressed at low levels. They show high levels of lysozyme and low levels of one of the immunoglobulin Fc receptors, FCGRIIA, which is characteristic of both neutrophils and monocytes. THP-1, but not Mono Mac 6, also expresses the high-affinity receptor for IgG, FCGRIA. Both cell lines lack the expression of the connective tissue components fibronectin, proteoglycan 4, and syndecan 3, which are characteristics of tissue macrophages but are absent in blood monocytes, indicating that they originate from bone marrow precursors and not yolk sac-derived hematopoietic cells. Both of these cell lines seem, therefore, to represent cells arrested during early myelo-monocytic development, at a branch point between neutrophil and monocyte differentiation. Their very immature phenotype indicates that great care should be taken when using these cell lines as models for normal monocyte/macrophage biology.
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| 4. |
- Aybay, Erdem, et al.
(författare)
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Two granzyme A/K homologs in Zebra mbuna have different specificities, one classical tryptase and one with chymase activity
- 2023
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Ingår i: Developmental and Comparative Immunology. - : Elsevier. - 0145-305X .- 1879-0089. ; 148
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Tidskriftsartikel (refereegranskat)abstract
- Granzymes A and K are two highly homologous serine proteases expressed by mammalian cytotoxic T cells (CTLs) and natural killer (NK) cells. The locus encoding these two proteases is the first of the hematopoietic serine protease loci to appear during vertebrate evolution. This locus is found in all jawed vertebrates including the cartilaginous fishes. Granzyme A is the most abundant of the different granzymes expressed by CTLs and NK cells and its potential function has been studied extensively for many years. However, no clear conclusions concerning its primary role in the immune defense has been obtained. In all mammals, there are only one copy each of granzyme A and K, whereas additional copies are found in both cartilaginous and ray finned fishes. In cichlids two of these copies seem to encode new members of the granzyme A/K family. These two new members appear to have changed primary specificity and to be pure chymases based on the amino acids in their active site substrate binding pockets. Interestingly, one of these gene copies is located in the middle of the granzyme A/K locus, while the other copy is present in another locus, the met-ase locus. We here present a detailed characterization of the extended cleavage specificity of one of these non-classical granzymes, a Zebra mbuna granzyme positioned in the granzyme A/K locus. This enzyme, named granzyme A2, showed a high preference for tyrosine in the P1 position of substrates, thereby being a strict chymase. We have also characterized one of the classical granzyme A/Ks of the Zebra mbuna, granzyme A1, which is a tryptase with preference for arginine in the P1 position of substrates. Based on their extended specificities, the two granzymes showed major similarities, but also some differences in preferred amino acids in positions surrounding the cleavable amino acid. Fish lack one of the hematopoietic serine protease loci of mammals, the chymase locus, where one of the major mast cell enzymes is located. An interesting question is now if cichlids have by compensatory mechanisms generated a mast cell chymase from another locus, and if similar chymotryptic enzymes have appeared also in other fish species.
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| 10. |
- Fu, Zhirong, et al.
(författare)
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Duodenases are a small subfamily of ruminant intestinal serine proteases that have undergone a remarkable diversification in cleavage specificity
- 2021
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Ingår i: PLOS ONE. - : Public Library of Science (PLoS). - 1932-6203. ; 16:5
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Tidskriftsartikel (refereegranskat)abstract
- Ruminants have a very complex digestive system adapted for the digestion of cellulose rich food. Gene duplications have been central in the process of adapting their digestive system for this complex food source. One of the new loci involved in food digestion is the lysozyme c locus where cows have ten active such genes compared to a single gene in humans and where four of the bovine copies are expressed in the abomasum, the real stomach. The second locus that has become part of the ruminant digestive system is the chymase locus. The chymase locus encodes several of the major hematopoietic granule proteases. In ruminants, genes within the chymase locus have duplicated and some of them are expressed in the duodenum and are therefore called duodenases. To obtain information on their specificities and functions we produced six recombinant proteolytically active duodenases (three from cows, two from sheep and one from pigs). Two of the sheep duodenases were found to be highly specific tryptases and one of the bovine duodenases was a highly specific asp-ase. The remaining two bovine duodenases were dual enzymes with potent tryptase and chymase activities. In contrast, the pig enzyme was a chymase with no tryptase or asp-ase activity. These results point to a remarkable flexibility in both the primary and extended specificities within a single chromosomal locus that most likely has originated from one or a few genes by several rounds of local gene duplications. Interestingly, using the consensus cleavage site for the bovine asp-ase to screen the entire bovine proteome, it revealed Mucin-5B as one of the potential targets. Using the same strategy for one of the sheep tryptases, this enzyme was found to have potential cleavage sites in two chemokine receptors, CCR3 and 7, suggesting a role for this enzyme to suppress intestinal inflammation.
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