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Quiescent stellate cells represent 5-8% of the total number of liver cells. [4] Each cell has several long cytoplasmic protrusions that extend from the cell body and wrap around the sinusoids. [5] The lipid droplets in the cell body store vitamin A as retinyl palmitate. [6] Hepatic stellate cells store 50–80% of the body's vitamin A. [6]
Research has shown the pivotal role of the stellate cell, that normally stores vitamin A, in the development of cirrhosis. Damage to the liver tissue from inflammation leads to the activation of stellate cells, which increases fibrosis through the production of myofibroblasts, and obstructs hepatic blood flow. [60]
The main liver cells are called hepatocytes; however, there are other cells that can be observed in a liver sample such as Kupffer cells (macrophages). [2] The liver is the biggest gland of the body. It has a wide variety of functions that range from the destruction of old blood cells to the control of the whole metabolism of macromolecules . [ 3 ]
Liver injury from a number of causes can activate the hepatic stellate cells into transdifferentiated and prolific myofibroblasts. [4] The myofibroblasts synthesize and secrete components of the extracellular matrix including collagen into the perisinusoidal space. [4]
The Kupffer cells can take up and destroy foreign material such as bacteria. Hepatocytes are separated from the sinusoids by the space of Disse. Hepatic stellate cells are present in the space of Disse and are involved in scar formation in response to liver damage. Defenestration happens when LSECs are lost rendering the sinusoid as an ordinary ...
The cells were first observed by Karl Wilhelm von Kupffer in 1876. [11] The scientist called them "Sternzellen" (star cells or hepatic stellate cell) but thought, inaccurately, that they were an integral part of the endothelium of the liver blood vessels and that they originated from it.
Removal of nestin-expressing MSCs has shown a significant decrease in LT-HSCs. [62] These cells secrete high levels of CXCL12 and closely associate with sympathetic nerves that influence cytokine-induced migration of HSCs. [63] [64] Similar to these cells, CAR cells have correlated with reduced HSCs and LT-HSC activity when ablated. [65]
Hematopoietic stem cells (HSCs) have high regenerative potentials and are capable of differentiating into all blood and immune system cells. Despite this impressive potential, HSCs have limited potential to produce more multipotent stem cells. [1]