MAPK Signaling Pathway || Animated Explanation
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- Опубликовано: 4 окт 2024
- #cellsignaling #mitogen #cellcycle
Mitogens are signaling molecules that bind to cell-surface receptors and initiate a cascade of intracellular signaling pathways that are essential for cell growth and division. One of the key pathways activated by mitogens involves the small GTPase Ras. Upon activation, Ras engages the MAP kinase (MAPK) cascade, a series of protein kinases that transmit the growth signal from the cell membrane to the nucleus.
The MAPK cascade leads to the increased expression of a group of genes known as immediate early genes. Among these is the gene encoding the transcription regulatory protein Myc. Myc is a pivotal transcription factor that increases the expression of delayed-response genes, some of which are crucial for the progression of the cell cycle.
One of the delayed-response genes upregulated by Myc leads to increased activity of G1-Cdk complexes, particularly the cyclin D-Cdk4 complex. This complex plays a vital role in the cell cycle by phosphorylating members of the retinoblastoma (Rb) family of proteins. Phosphorylation of Rb proteins leads to their inactivation, which in turn frees the E2F family of transcription factors. E2F is then able to activate the transcription of genes required for the transition from the G1 phase to the S phase of the cell cycle, including the genes for G1/S-cyclins (cyclin E) and S-cyclins (cyclin A).
The synthesis of these cyclins leads to the formation of G1/S-Cdk and S-Cdk complexes, which further enhance the phosphorylation of Rb proteins, thus reinforcing the initial signal in a positive feedback loop. This ensures that the cell is committed to the cell cycle and progresses past the G1/S checkpoint.
Additionally, E2F proteins stimulate the transcription of their own genes, creating another layer of positive feedback that ensures a robust transition into the S phase. This regulatory network ensures that once a cell has committed to the cell cycle, it is propelled forward to DNA replication and subsequent cell division.
In summary, the binding of mitogens to cell-surface receptors sets off a complex network of intracellular signaling pathways that culminate in the cell’s progression through the cell cycle. This is achieved through a series of tightly regulated steps involving the activation of Ras, the MAP kinase cascade, and the transcriptional regulation by Myc and E2F, ultimately leading to DNA synthesis and cell division.
This intricate system allows cells to respond to external growth signals and ensures that cell division is carefully controlled, which is crucial for normal development and maintenance of tissue homeostasis. Disruptions in this regulatory network can lead to uncontrolled cell proliferation and are a hallmark of many cancers.
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