Tyrosine-protein kinase Tec is a tyrosine kinase that in humans is encoded by the TEC gene. [5] [6] Tec kinase is expressed in hematopoietic, liver, and kidney cells and plays an important role in T-helper cell processes. [7] Tec kinase is the name-giving member of the Tec kinase family, a family of non-receptor protein-tyrosine kinases. [8]
Tec kinase contains five protein interaction domains. The characteristic feature of Tec family kinases is a pleckstrin homology (PH) domain on the N-terminus of the molecule followed by a Tec homology (TH) domain. The TH domain of Tec kinase contains a Btk homology (BH) motif and two proline-rich (PR) regions. The other protein interaction domains of Tec kinase include Src homology (SH) domains SH2 and SH3 and a kinase domain with enzymatic activity. [7] [9]
TEC produces two protein isoforms that differ in the SH3 domain through alternative splicing. [7] [9] Type IV isoform has a full length SH3 domain and is predominately expressed in hematopoietic cells. Type III isoform has a SH3 domain that lacks the COOH-terminal 22 residues and is predominately expressed in the liver and kidney. [9] It is likely the shortened SH3 domain of type III Tec kinase is a disabled form.
TEC resides on chromosome 4, locus 4p12 in humans. TEC is located only 1.5kb away from TXK , another member of the Tec kinase family, making it likely these two kinase genes arose through the process of gene-duplication. [9]
Tec family kinases are involved in the intracellular signaling mechanisms of cytokine receptors, lymphocyte surface antigens, heterotrimeric G-protein-coupled receptors, and integrin molecules. They are also key players in the regulation of the immune functions.
Tec kinase has low expression in naïve T cells but is upregulated upon T-cell activation, especially in the presence of TGF-ß1 and IL-6. [8] Tec kinase is activated in T cells in response to CD3 engagement and TCR/CD28 stimulation. [8] [9] Tec kinase plays an important role in T-cell activation. Upon TCR/CD28 stimulation, Tec kinase is recruited to the cytoplasmic tail of CD28 and takes part in a signaling pathway that leads to activation of IL-2 and IL-4 cytokine promoters. [8] It is likely Tec kinase plays a regulatory role in this signaling pathway in activated T cells, but its full function is not known. [8]
Tec kinase also contributes to T-helper cell functions. In Th2 cells, Tec kinase is upregulated, indicating it may perform an important function in the regulation of Th2 cells. In the absence of Tec kinase, an increase in Th17 effector/memory cells is observed during a primary immune response, indicating Tec kinase may help in controlling Th17 subsets. [8] Additionally, Th17 cells in the absence of Tec kinase produced higher levels of IL-17A, IL-17F, IL-23R, and RORγt. This indicates Tec kinase could be used as a target to enhance Th17 cell function during reinfection with pathogens. [8]
Tec kinase is expressed in B cells and is activated upon B-cell receptor stimulation. However, there are no B-cell phenotype changes detected in Tec-deficient mice. This is likely because Tec has overlapping functions with Btk, another member of the Tec kinase family. Deletion of Btk results in a compensatory increased expression of Tec kinase, but a change in B-cell phenotype is observed, indicating Btk has a more important role in B-cell development than Tec. When both Btk and Tec are deleted, a severe B-cell deficiency is observed. [10]
Tec kinase plays a role in the toll-like receptor (TLR) signaling pathway of macrophages that produces pro-inflammatory cytokines TNF-α and IL-6. [7] [10] Btk has an important function in this pathway, as it has been observed to bind to TLR4, MyD88, and IRAK-1 signaling proteins. Tec kinase is likely involved in the same manner in macrophages, as it has a compensatory function for Btk. [7]
Tec kinase is activated in platelets upon platelet stimulation with thrombin or collagen. Tec kinase is involved in the regulation of PLCγ2 activation, platelet aggregation, and spreading GPVI collagen receptor. Btk plays a more important role in these processes, but Tec kinase is able to compensate for loss of Btk in XLA immune-deficient patients. Patients deficient in both Btk and Tec kinase display greatly impaired phosphorylation of PLCγ2, no aggregation of platelets in response to high doses of collagen, and greatly impaired spreading of collagen. [7]
Tec kinase is activated in neutrophils upon neutrophil stimulation with chemoattractant fMLP. It is not clear what the function of Tec kinase is in neutrophils. [7] Tec kinase is also expressed in primary mast cells and erythroid cells. Its function has not been identified in these cells. [7]
Tec kinase is activated through a similar process to other members of the Tec kinase family. Tec kinase must first be relocated to the plasma membrane, which is mediated by the interaction of its PH domain with phospholipid PIP3 generated from PI3-K activity. A tyrosine residue within the kinase domain of Tec kinase is then phosphorylated by Src family kinases. This allows for autophosphorylation of a tyrosine residue in the Tec kinase SH3 domain, which allows the Tec kinase to be fully activated. [7] [8] [9]
Rheumatoid arthritis (RA) is an autoimmune disorder that results in swollen, painful joints. Standard treatment for RA involves recombinant antibodies and receptors, but this biological therapy is costly. Inhibition of Tec family kinases may provide an alternative treatment for RA. Btk is the main target of inhibition, but because of the compensatory role of Tec kinase to Btk, an inhibition involving both Btk and Tec kinase may be needed. Blocking Tec family kinases could reduce the production of autoantibodies from B cells, limit the secretion of proinflammatory cytokines from macrophages, and inhibit mast cell degranulation. [10] There are no known inhibitors of Tec kinase at the present. However, Tec kinase is downregulated by dephosphorylation of PIP3 by phosphatase enzyme SHIP and by SH2-containing tyrosine phosphatase SHP-1. [9]
Chronic myeloid leukemia (CML) is a cancer of the white blood cells in which granulocytes proliferate. Tyrosine kinase inhibitors are largely used for treatment. Dasatinib is a tyrosine kinase inhibitor that has been found to bind to Tec kinase and Btk, limiting release of histamine and proinflammatory cytokines from granulocytes. Dasatinib has also been found to inhibit T-cell effector functions through Tec family kinase inhibition, suggesting this drug could be used to suppress immune response for transplantation and T-cell autoimmune diseases. [10]
TEC gene may also be associated with myelodysplastic syndrome. [11]
Tec kinase was first discovered in 1990 while researchers investigated mouse liver for novel protein-tyrosine kinase isolation. [9] [8] Expression of Tec kinase was initially found in mouse liver, kidney, spleen, and heart.
TEC (gene) has been shown to interact with:
A tyrosine kinase is an enzyme that can transfer a phosphate group from ATP to the tyrosine residues of specific proteins inside a cell. It functions as an "on" or "off" switch in many cellular functions.
The JAK-STAT signaling pathway is a chain of interactions between proteins in a cell, and is involved in processes such as immunity, cell division, cell death, and tumour formation. The pathway communicates information from chemical signals outside of a cell to the cell nucleus, resulting in the activation of genes through the process of transcription. There are three key parts of JAK-STAT signalling: Janus kinases (JAKs), signal transducer and activator of transcription proteins (STATs), and receptors. Disrupted JAK-STAT signalling may lead to a variety of diseases, such as skin conditions, cancers, and disorders affecting the immune system.
Lck is a 56 kDa protein that is found inside specialized cells of the immune system called lymphocytes. The Lck is a member of Src kinase family (SFK) and is important for the activation of T-cell receptor (TCR) signaling in both naive T cells and effector T cells. The role of Lck is less prominent in the activation or in the maintenance of memory CD8 T cells in comparison to CD4 T cells. In addition, the constitutive activity of the mouse Lck homolog varies among memory T cell subsets. It seems that in mice, in the effector memory T cell (TEM) population, more than 50% of Lck is present in a constitutively active conformation, whereas less than 20% of Lck is present as active form in central memory T cells. These differences are due to differential regulation by SH2 domain–containing phosphatase-1 (Shp-1) and C-terminal Src kinase.
CD28 is one of the proteins expressed on T cells that provide co-stimulatory signals required for T cell activation and survival. T cell stimulation through CD28 in addition to the T-cell receptor (TCR) can provide a potent signal for the production of various interleukins.
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Bruton's tyrosine kinase, also known as tyrosine-protein kinase BTK, is a tyrosine kinase that is encoded by the BTK gene in humans. BTK plays a crucial role in B cell development.
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Proto-oncogene c-KIT is the gene encoding the receptor tyrosine kinase protein known as tyrosine-protein kinase KIT, CD117 or mast/stem cell growth factor receptor (SCFR). Multiple transcript variants encoding different isoforms have been found for this gene. KIT was first described by the German biochemist Axel Ullrich in 1987 as the cellular homolog of the feline sarcoma viral oncogene v-kit.
Lymphocyte cytosolic protein 2, also known as LCP2 or SLP-76, is a signal-transducing adaptor protein expressed in T cells and myeloid cells and is important in the signaling of T-cell receptors (TCRs). As an adaptor protein, SLP-76 does not have catalytic functions, primarily binding other signaling proteins to form larger signaling complexes. It is a key component of the signaling pathways of receptors with immunoreceptor tyrosine-based activation motifs (ITAMs) such as T-cell receptors, its precursors, and receptors for the Fc regions of certain antibodies. SLP-76 is expressed in T-cells and related lymphocytes like natural killer cells.
Tyrosine-protein kinase ITK/TSK also known as interleukin-2-inducible T-cell kinase or simply ITK, is a protein that in humans is encoded by the ITK gene. ITK is a member of the TEC family of kinases and is highly expressed in T cells.
GRB2-associated-binding protein 2 also known as GAB2 is a protein that in humans is encoded by the GAB2 gene.
Non-receptor tyrosine-protein kinase TYK2 is an enzyme that in humans is encoded by the TYK2 gene.
Janus kinase 2 is a non-receptor tyrosine kinase. It is a member of the Janus kinase family and has been implicated in signaling by members of the type II cytokine receptor family, the GM-CSF receptor family, the gp130 receptor family, and the single chain receptors.
JAK1 is a human tyrosine kinase protein essential for signaling for certain type I and type II cytokines. It interacts with the common gamma chain (γc) of type I cytokine receptors, to elicit signals from the IL-2 receptor family, the IL-4 receptor family, the gp130 receptor family. It is also important for transducing a signal by type I (IFN-α/β) and type II (IFN-γ) interferons, and members of the IL-10 family via type II cytokine receptors. Jak1 plays a critical role in initiating responses to multiple major cytokine receptor families. Loss of Jak1 is lethal in neonatal mice, possibly due to difficulties suckling. Expression of JAK1 in cancer cells enables individual cells to contract, potentially allowing them to escape their tumor and metastasize to other parts of the body.
Phospholipase C, gamma 1, also known as PLCG1 and PLCgamma1, is a protein that in humans involved in cell growth, migration, apoptosis, and proliferation. It is encoded by the PLCG1 gene and is part of the PLC superfamily.
Docking protein 1 is a protein that in humans is encoded by the DOK1 gene.
Suppressor of cytokine signaling 1 is a protein that in humans is encoded by the SOCS1 gene. SOCS1 orthologs have been identified in several mammals for which complete genome data are available.
Cytoplasmic tyrosine-protein kinase BMX is an enzyme that in humans is encoded by the BMX gene.
A non-receptor tyrosine kinase (nRTK) is a cytosolic enzyme that is responsible for catalysing the transfer of a phosphate group from a nucleoside triphosphate donor, such as ATP, to tyrosine residues in proteins. Non-receptor tyrosine kinases are a subgroup of protein family tyrosine kinases, enzymes that can transfer the phosphate group from ATP to a tyrosine residue of a protein (phosphorylation). These enzymes regulate many cellular functions by switching on or switching off other enzymes in a cell.
In molecular biology, the Btk-type zinc finger or Btk motif (BM) is a conserved zinc-binding motif containing conserved cysteines and a histidine that is present in certain eukaryotic signalling proteins. The motif is named after Bruton's tyrosine kinase (Btk), an enzyme which is essential for B cell maturation in humans and mice. Btk is a member of the Tec family of protein tyrosine kinases (PTK). These kinases contain a conserved Tec homology (TH) domain between the N-terminal pleckstrin homology (PH) domain and the Src homology 3 (SH3) domain. The N-terminal of the TH domain is highly conserved and known as the Btf motif, while the C-terminal region of the TH domain contains a proline-rich region (PRR). The Btk motif contains a conserved His and three Cys residues that form a zinc finger, while PRRs are commonly involved in protein-protein interactions, including interactions with G proteins. The TH domain may be of functional importance in various signalling pathways in different species. A complete TH domain, containing both the Btk and PRR regions, has not been found outside the Tec family; however, the Btk motif on its own does occur in other proteins, usually C-terminal to a PH domain.
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