Apoptosis

The number of cells in multicellular organism is tightly regulated. Not simply by controlling the rate of cell division, but also by controlling the rate of cell death. If cells are no longer needed, they commit suicide by activating an intracellular death program. This process is therefore called programmed cell death or apoptosis (from a Greek word meaning “falling off,” as leaves from a tree). The intrinsic apoptotic pathway occurs by the release of cytochrome c from mitochondria. The extrinsic apoptotic pathway is caused by the binding of death ligands, such as TNF (tumor necrosis factor), Fas, and TRAIL (TNF-related-apoptosis-inducing ligand), to their corresponding receptors. Although programmed cell death is involved in a number of key biological phenomena, aberrant apoptosis results in diverse human diseases [1]
The amount of apoptosis that occurs in developing and adult animal tissues is surprisingly large. In the developing vertebrate nervous system up to half or more of the nerve cells normally die soon after they are formed. In a healthy adult human, billions of cells die in the bone marrow and intestine every hour. Although this process seems remarkably wasteful -especially as the vast majority are perfectly healthy at the time they kill themselves- programmed cell death plays an important role during embryonic development, as hands and feet, for example, are sculpted by apoptosis: they start out as spadelike structures, and the individual digits separate only as the cells between them die. In other cases, cells die when the structure they form is no longer needed. When a tadpole changes into a frog, the cells in the tail die, and the tail, which is not needed in the frog, disappears. In many other cases, cell death helps regulate cell numbers. In the developing nervous system, for example, cell death adjusts the number of nerve cells to match the number of target cells that require innervation. In all these cases, the cells die by apoptosis as well[2].


[2] D.R. Williams et al. An apoptosis-inducing small molecule that binds to heat shock protein 70. Angew. Chem. Int. Ed. Engl. 2008, 47, 7466-7469.
[1] B. Alberts, A. Johnson, J. Lewis et al. Molecular Biology of the Cell. 4th edition. New York. Garland Science, 2002. 

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1387 SD 208 TGF-βR 1 inhibitor €50.00
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3643 Phenoxybenzamine hydrochloride Selective α1/α2-adrenoceptor antagonist; Calmodulin inhibitor €50.00
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3552 LDN 212854 Potent ALK2-biased BMP type I receptor kinase inhibitor €110.00
1509 LDN 193189 hydrochloride Highly potent small molecule inhibitor of BMP type I receptors ALK2, ALK3, and ALK6 €65.00
2189 K 02288 Inhibitor of BMP signaling. Inhibits ALK1, 2, and 6 €90.00
1866 JTE 013 S1PR2 antagonist €130.00
2890 JNJ 47965567 Potent, brain-penetrant P2X7 antagonist €130.00
2323 ITD 1 Selective inhibitor of TGFβ/Smad signaling that promotes cardiogenesis €105.00
2236 IN 1130 TGF-βR 1 inhibitor €95.00
1832 GW 788388 TGF-βR 1 inhibitor €50.00
2150 Dorsomorphin dihydrochloride Inhibitor of BMP signaling. Inhibits ALK2, 3 and 6 €65.00
1708 Dorsomorphin Inhibitor of BMP signaling. Inhibits ALK2, 3 and 6 €65.00
2827 C-DIM8 Nur77 antagonist €95.00
2523 BX 430 Allosteric antagonist of human P2X4 receptor channels €105.00
3295 BIA TMBIM6 antagonist €120.00
2679 AR7 RARα antagonist that stimulates chaperone-mediated autophagy €90.00
1421 A 83-01 TGF-βR 1 inhibitor; ALK 5 inhibitor €70.00
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1744 A 77-01 TGF-βR 1 inhibitor; ALK 5 inhibitor €80.00

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