Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Certain species of Chlorella live within the digestive cells of the fresh water cnidarian Hydra viridis. When introduced into the hydra gut, these symbiotic algae are phagocytized by digestive cells but avoid host digestion and persist at relatively constant numbers within host cells. In contrast, heat-killed symbionts are rapidly degraded after phagocytosis. Live symbionts appear to persist because host lysosomes fail to fuse with phagosomes containing live symbionts. Neither acid phosphatase nor
ferritin
was delivered via lysosomes into phagosomes containing live symbionts, whereas these lysosomal markers were found in 50% of the vacuoles containing heat-killed symbionts 1 h after phagocytosis. Treatment of symbiotic algae before phagocytosis with polycationic polypeptides abolishes algal persistence and perturbs the ability of these algae to control the release of photosynthate in vitro. Similarly, inhibition of photosynthesis and hence of the release of photosynthetic products as a result of prolonged darkness and 3-(3,4-dichlorophenyl)-1,1-dimethyl urea (DCMU) treatment also abolishes persistence. Symbiotic algae are not only protected from host digestive attack but are also selectively transported within host cells, moving from the apical site of phagocytosis to a basal position of permanent residence. This process too is disrupted by polycationic polypeptides, DCMU and darkness. Both algal persistence and transport may, therefore, be a function of the release of products from living, photosynthesizing symbionts.
Vinblastine
treatment of host animals blocked the movement of algae within host cells but did not perturb algal persistence: algal persistence and the transport of algae may be initiated by the same signal, but they are not interdependent processes.
...
PMID:Phagosome-lysosome fusion inhibited by algal symbionts of Hydra viridis. 711 17
We have previously demonstrated that colchicine inhibits
ferritin
clearance from the circulation of normal and iron-loaded rats and stimulates endogenous
ferritin
release into both the serum and bile of iron-loaded rats. The aim of the present study was to determine the effect of vinblastine on
ferritin
clearance and release in normal and iron-loaded rats.
Vinblastine
was administered at either 1 or 10 mg/kg to both normal and iron-loaded rats, infused over a 5 h period with either a rat liver
ferritin
or saline solution. Serum and biliary
ferritin
levels were determined every 30 min. After 5 h, 90% of the infused
ferritin
was cleared from the circulation in the absence of vinblastine. Low-dose vinblastine decreased
ferritin
uptake 10-20% in iron-loaded rats. High-dose vinblastine inhibited
ferritin
clearance by 25% in normal rats and 20-40% in iron-loaded rats.
Vinblastine
administration caused a 2-3-fold increase in the serum
ferritin
concentration and a 3-5-fold peak in biliary
ferritin
levels. Thus, vinblastine caused the release of endogenous
ferritin
into both the serum and bile of iron-loaded rats in the presence of a
ferritin
load. We therefore conclude that disturbed microtubule function accounts for the observed inhibition of
ferritin
uptake and intracellular transport; however, the mechanism of increased
ferritin
release remains unclear.
...
PMID:Effect of the microtubular inhibitor vinblastine on ferritin clearance and release in the rat. 898 33
