Hepatocyte Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Hepatocyte and links to relevant pages within the course.
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| Each of the following is related to the virulence of Listeria monocytogenes except: | View Page |
| Review 3 Rouquette C. Berche P. The pathogenesis of infection by Listeria monocytogenes Microbiologia. 12:245-58, 1996 Listeria monocytogenes is a Gram-positive bacterium responsible for severe infections in human and a large variety of animal species. It is a facultative intracellular pathogen which invades macrophages and most tissue cells of infected hosts where it can proliferate. The molecular basis of this intracellular parasitism has been to a large extent elucidated. The virulence factors, including internalin, listeriolysin O, phospholipases and a bacterial surface protein, ActA, are encoded by chromosomal genes organized in operons. Following internalisation into host cells, the bacteria escape from the phagosomal compartment and enter the cytoplasm. They then spread from cell to cell by a process involving actin polymerisation. In infected hosts, the bacteria cross the intestinal wall at Peyer's patches to invade the mesenteric lymph nodes and the blood. The main target organ is the liver, where the bacteria multiply inside hepatocytes. Early recruitment of polymorphonuclear cells lead to hepatocyte lysis, and thereby bacterial release This causes prolonged septicaemia, particularly in immunocompromised hosts, thus exposing the placenta and brain to infection. The prognosis of listeriosis depends on the severity of meningoencephalitis, due to the elective location of foci of infection in the brain stem (rhombencephalitis). Despite bactericidal antibiotic therapy, the overall mortality is still high (25 to 30%). | View Page |
| Iron Transport Once absorbed through the mucosal cells of the duodenum, iron is bound to a carrier plasma protein, transferrin (Tf), for movement to sites of utilization. Almost all iron in plasma is bound to Tf, and most Tf-bound iron is carried to the bone marrow to be incorporated into developing erythrocytes. Transferrin is normally about 20% to 40% saturated with iron. (5)Transferrin releases iron to specific transferrin receptors (TfRs) for movement into cells. Transferrin receptors are found on all cells, but are found in relatively high concentration in erythroid precursors, hepatocytes, and placental cells. When the capacity of plasma Tf to bind iron is exceeded, i.e., transferrin saturation (TS) is higher than normal, excess iron is taken up by hepatocytes and other cells. A brief summary of iron metabolism is illustrated. | View Page |
| HFE and Other Genes A hemochromatosis gene, HFE, was identified in 1996. Mutations in the HFE gene are found in the majority of patients diagnosed with hereditary hemochromatosis (HH). The locus for the gene is on the long arm of chromosome 6 where it codes for a membrane protein, HFE. The exact mechanism of the role of HFE protein in iron metabolism is incompletely understood. It is thought that HFE, along with a second protein, beta-2 microglobin, interacts with transferrin receptors (TfR) on cell membranes. This interaction supresses the affinity of transferrin for TfR, thus lowering the uptake of transferrin--and its attached iron--into the cell. Transferrin receptors have been found on the surface of a variety of cells, with the greatest concentration on cell membranes of intestinal cells, hepatocytes, and RBC precursors. In addition to HFE, HH is also associated with mutations in other genes involved in iron homeostasis, including hemojuvelin (HJV), TfR, hepcidin, and ferroportin. Hepcidin production is reduced in HH due to all of these genetic causes, with a resulting increase in iron absorption. Mutations in HFE are the most common cause of HH. | View Page |