ZXDC
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Zinc finger, X-linked, duplicated family member C (ZXDC) is a
human Humans (''Homo sapiens'') or modern humans are the most common and widespread species of primate, and the last surviving species of the genus ''Homo''. They are Hominidae, great apes characterized by their Prehistory of nakedness and clothing ...
CIITA CIITA is a human gene which encodes a protein called the class II, major histocompatibility complex, transactivator. Mutations in this gene are responsible for the bare lymphocyte syndrome in which the immune system is severely compromised and c ...
-binding protein involved in the activation of
major histocompatibility complex The major histocompatibility complex (MHC) is a large Locus (genetics), locus on vertebrate DNA containing a set of closely linked polymorphic genes that code for Cell (biology), cell surface proteins essential for the adaptive immune system. The ...
(MHC) class I and II. For binding to occur, ZXDC must form an oligomeric complex with another copy of itself or with ZXDA, a related protein. ZXDC is activated by
sumoylation In molecular biology, SUMO (Small Ubiquitin-like Modifier) proteins are a family of small proteins that are covalently attached to and detached from other proteins in cells to modify their function. This process is called SUMOylation (pronounced ...
, a
post-translational modification In molecular biology, post-translational modification (PTM) is the covalent process of changing proteins following protein biosynthesis. PTMs may involve enzymes or occur spontaneously. Proteins are created by ribosomes, which translation (biolog ...
. ZXDC plays a role in controlling immunological responses, cancer formation and progression, and cell proliferation, differentiation, and survival.


History

When Sakaue and colleagues searched for novel transcription factors involved in the development of Xenopus laevis, they discovered ZXDC (ZXD Family Zinc Finger C). This discovery was discovered in a research article that was published in 1998. They found a cDNA clone called "Xfin" that encodes a protein with two zinc finger C2H2 domains. Later research established the interspecies conservation of the Xfin protein, and the human equivalent was given the name ZXDC. It was discovered that the protein was broadly generated in human tissues and that a number of variables, including hypoxia, estrogen, and cytokines, controlled how the protein was expressed.


Structure

ZXDC is a protein composed of 455 amino acids in humans, with a molecular weight of approximately 49.9 kDa. Near its C-terminus, the protein has two C2H2-type zinc finger domains that are likely to be involved in DNA binding and transcriptional control. A flexible linker region that separates the zinc fingers may provide more adaptability in binding to various DNA sequences. Other domains found in ZXDC include a proline-rich region close to the N-terminus that may be important in protein-protein interactions and a central region that is projected to be intrinsically disordered. ZXDC also contains numerous other features in addition to the zinc fingers. Although the exact purpose of these domains is not yet known, they might assist in mediating interactions with other proteins or controlling the activity of the protein. ZXDC has mostly been investigated in the context of developmental biology and cell fate determination in animals. Studies in fruit flies, for instance, have demonstrated that protein is crucial for the development of particular cell types, such as the cell precursors of the sensory organs in the peripheral nervous system.


Function

ZXDC is highly conserved between species, showing the significance of this gene for cellular function. ZXDC is a member of the zinc finger family of proteins that are crucial for the regulation of genes and cellular functions in a variety of organisms. ZXDC (ZXD Family Zinc Finger C) is a protein-coding gene that controls biological processes such as cell division, proliferation, and apoptosis. This gene produces a protein with two C2H2-type zinc fingers that are a member of the ZXD family. ZXDC has been linked to the formation of numerous cancer forms and it regulates the advancement of the cell cycle. It is also known to interact with other proteins, including GSK3β, a serine/threonine protein kinase implicated in a number of signaling pathways, and p53, an important tumor suppressor. By regulating the expression of genes linked to the innate immune response, ZXDC has also been demonstrated to contribute to the regulation of immunological responses. As a result, it is believed that ZXDC could be a possible target for the creation of new remedies for autoimmune and cancerous conditions. ZXDC is involved in controlling the circadian clock in cells, which regulates the daily cycles of physiological processes.


Isolation

ZXDC's solubility is not well described in the literature and may vary depending on a number of variables, including the protein's expression system, the buffering situation, and the presence of other proteins or chemicals. But studies have shown the effective separation of ZXDC using a variety of techniques, including gel filtration and affinity chromatography, suggesting that the protein is probably soluble in some circumstances. For instance, one study found superior amounts of soluble protein and pure recombinant ZXDC protein generated in Escherichia Coli using immobilized metal affinity chromatography (IMAC).


Role in disease

Numerous cancers, including breast, lung, and colorectal cancer, have been linked to ZXDC, according to studies. It is also considered to be a possible therapeutic target for autoimmune and cancer conditions. ZXDC abnormality has been linked to cancer progression and an unfavorable prognosis. In breast cancer, low ZXDC expression has been associated with tumor invasiveness, lymph node metastases, and poor prognosis. ZXDC suppresses the growth and migration of breast cancer cells, acting as a tumor suppressor. The emergence of a more aggressive form of lung cancer has been correlated with decreased ZXDC expression. Studies have demonstrated that increasing ZXDC expression can prevent tumor development and invasion in lung cancer cells. In colorectal cancer, the loss of ZXDC expression has been connected to the advancement of the disease stage and lymph node metastasis. In addition, it has been proposed that ZXDC may function as a tumor suppressor by obstructing the Wnt/beta-catenin signaling pathway, which is frequently active in colorectal cancer. Overall, these results indicate that ZXDC may be a key player in the initiation and development of cancer, and it may also hold interest as a diagnostic or therapeutic target for the treatment of cancer. To completely comprehend the processes underlying ZXDC's activity in cancer and to design specific treatments based on it, more study is necessary.


References


External links


ZXDC at NIH NCBIZXDC at UniprotZXDC GeneCard
Human proteins {{protein-stub