Notch signalling pathway.pptx
MrSr7
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Dec 25, 2022
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It summarizes notch signalling pathway, and types of notch ligand and notch receptors
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ASSIGNMENT # 03 N OTCH SIGNALLING PATHWAY Submitted To: Dr. Jamshaid Hussain Submitted By: Nazal Gul (SP19-BTY-007) Date of Submission: 2 nd June, 2022
Contents: Introduction to Notch Signalling Notch Receptors Lig ands Notch Signalling Pathway Functions of Notch Signalling Pathway Notch Pathway and Diseases
Introduction Notch Signalling is an “Evolutionary C onserved Signalling Pathway”. Important in development and homeostasis. It regulates cellular proliferation, differentiation and apoptosis. It is unique from other signalling pathways due to its ligands. S ignalling is restricted to neighboring cells. This pathway is associated with tissue growth and cancer. Also, it is involved in cell death and tumor suppression .
Discovery In 1914, John S. Dexter noticed the appearance of a notch in the wings of the fruit fly Drosophila melanogaster . The alleles of the gene were identified in 1917 by Thomas Hunt Morgan . Its molecular analysis and sequencing was done in the 1980s by Spyros Artavanis-Tsakonas and Michael W. Young .
Notch Receptors Notch Signalling is the most widely used intercellular communication pathway. There are 4 NOTCH Receptors found in mammals. These are: NOTCH1, NOTCH2, NOTCH3 AND NOTCH4. This receptor is a single-pass transmembrane receptor protein. It is a heterodimer of 2 sub-units. The first subunit is an extracellular segment with EGF repeats. The second subunit consists of; - A short extracellular domain - A transmembrane domain - And an intracellular domain.
STRUCTURE OF NOTCH RECEPTORS Source: https://www.researchgate.net/publication/308993039_Targeting_Notch_as_a_Therapeutic_Approach_for_Human_Malignancies
Notch Ligands Notch ligands are type I transmembrane proteins. The ligands of the Notch receptors are characterized into 2 families; 1. Jagged Protein Family (includes JAG 1 and JAG 2) 2. Delta-like Protein Family (includes DLL1, DLL3, and DLL4) Ligand Extracellular domains are highly conserved in evolution. They are essential for ligand-receptor binding to activate Notch signaling. Intracellular domain of Notch ligands is short, only contains 70 amino acid residues.
STRUCTURE OF NOTCH LIGANDS Source: https:// www.creativebiomart.net/resource/signal-pathway-notch-signal-pathway-387.htm
NOTCH SIGNALLING Notch Signalling Pathway involves inter-cellular signalling interactions. Two cells are involved: sending cell and receiving cell Sending has more ligands than Notch receptors. Receiving cell has more Notch receptors than ligands. The ligand-receptor crosstalk controls cell fate decisions through which neuronal, cardiac, immune, and endocrine development are regulated. Binding of the Delta/Jagged ligand on one cell to the Notch receptor on another cell results in two Proteolytic Cleavages of the receptor. The ADAM10 or TACE metalloprotease catalyzes the S2 cleavage.
Source: https:// www.creativebiomart.net/resource/signal-pathway-notch-signal-pathway-387.htm NOTCH SIGNALLING PATHWAY
Continued… This generates a substrate for S3 cleavage by the γ- secretase complex. This proteolytic processing mediates release of the Notch intracellular domain (NICD). NICD enters the nucleus and interacts with the DNA-binding CSL (CBF1, Su(H) and LAG-1) protein. The co-activator Mastermind (Mam) and other transcription factors are recruited to the CSL complex. At the same time, co-repressors (Co-R) are released. The co-activators carry out the transcription of target genes e:g P21, CyclinD1 and cMYC. These are crucial for cell division and cell cycle progression. This leads to cellular proliferation.
Source: https:// www.creativebiomart.net/resource/signal-pathway-notch-signal-pathway-387.htm NOTCH SIGNALLING PATHWAY
Functions of Notch Signal Pathway Neuronal function and development S tabilization of arterial endothelial fate and angiogenesis R egulation of crucial cell communication events Cardiac valve homeostasis T imely cell lineage specification of both endocrine and exocrine pancreas I nfluencing of binary fate decisions of cells that must choose between the secretory and absorptive lineages in the gut E xpansion of the hematopoietic stem cell compartment during bone development
Continued… T cell lineage commitment from common lymphoid precursor R egulation of cell-fate decision in mammary glands at several distinct development stages Regulation of the mitotic/meiotic decision in the C. elegans germline
Notch Signal Pathway and Diseases The abnormality of this regulatory signalling mechanism often leads to congenital genetic diseases. It has been confirmed that the mutations of related genes in the Notch signaling pathway are associated with genetic diseases such as CADASIL, Aligile's syndrome and hypogastric hypoplasia. Delta 3 gene mutations can cause autosomal recessive diseases. A study found that Notch signaling disorders associated with certain cardiovascular diseases. Animal model experiments show that it may affect the cardiovascular system from four aspects, including vascular remodeling, vascular stability, choice of arteriovenous and heart development.
Continued… Recent studies have found that the cleavage of amyloid precursor protein and Notch receptor are all dependent on γ- secretase . So it is speculated that Notch signaling pathway may have some connection with the occurrence and development of Alzheimer's disease.
Conclusion Notch signal is in a complex multi-dimensional regulatory network that provides a basis for multiple functions in development. For example, endocytic transport of Notch receptors and ligands plays an important role in the activation of Notch signaling. Ubiquitin-mediated protein degradation is crucial for preventing the continuous activation of Notch signaling, yet its regulatory mechanism remains to be elucidated. The main task of future research is to unveil the mechanisms of the complex regulatory networks of Notch signaling. Also, recognizing the basis for the diversity of functions of Notch signaling that will allow us to design more specific approaches. And developing treatment programs to specific pathologies resulting from aberrant Notch signaling.
References https://www.researchgate.net/publication/308993039_Targeting_Notch_as_a_Therapeutic_Approach_for_Human_Malignancies https://www.sciencedirect.com/science/article/abs/pii/B9780123852335000076 https:// www.frontiersin.org/articles/10.3389/fphys.2020.00929/full Yamamoto S, Schulze KL, Bellen HJ. Introduction to Notch signaling. Methods Mol Biol. 2014;1187:1-14. doi : 10.1007/978-1-4939-1139-4_1. PMID: 25053477.
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