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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ferritin from malignant tissue differs electrophoretically from normal
ferritin
. The molecular basis of this difference has not yet been defined. Malignant tissue contains a mixture of ferritins from normal cells, inflammatory cells as well as cancer cells. GW-39 is a pure
colon carcinoma
cell system that synthesizes human carcinoembryonic antigen. Therefore,
ferritin
was isolated from normal colon mucosa and colon cancer tissues, as well as from the
colon carcinoma
cell line, to clarify the molecular relationship between normal and malignant ferritins. Colon carcinoma
ferritin
differs in primary structure from normal colon mucosal
ferritin
and contains at least six additional different tryptic peptides. These six peptides were also found in the
ferritin
from the
colon carcinoma
cell line. These data suggest that the alteration in
ferritin
structure occurs at the cellular level and is associated with the malignant state.
...
PMID:Alteration in tryptic peptide patterns of ferritins purified from human colon carcinoma. 50 93
In an attempt to identify new tumor markers in human
colon carcinoma
, we produced antisera in rabbits tolerant to normal human tissue antigens and immunized with zinc glycinate-treated extracts of liver metastases from a
colon carcinoma
. These antisera reacted with carcinoembryonic antigen and with an additional component present in the tumor extracts but not detected in the extracts of normal tissues. The new component, the zinc glycinate marker (ZGM), had an alpha2 mobility on immunoelectrophoresis, was soluble in 1 M perchloric acid, and had a molecular weight of approximately 2X10(6), as indicated by its elution pattern on Sepharose 6-B chromatography. It differed from alpha fetoprotein, nonspecific cross-reacting antigens (NCA, NGP, or CCA III),
ferritin
-like molecules, and blood group substances A, B, H, Lewis a, and Lewis b. The ZGM was similarly identified in saline or zinc glycinate extracts of 11 of 23 carcinomas of the colon. With routine hematoxylineosin staining, no histologic differences were apparent between tumors bearing the antigen and those without it.
...
PMID:The zinc glycinate marker in human colon carcinoma. 125 60
In a previous study, we used a murine monoclonal antibody, A7, against human
colon carcinoma
as a drug-carrier to treat colorectal cancer. In the present study, we found that MAb A7 also reacted immunohistochemically with 73% of human pancreatic carcinoma cell lines, with the A7 antigen mainly being detected on the cell surface. However, the A7 antigen was found in only 9% of the spent media of these human pancreatic carcinoma cell lines by ELISA. On the other hand, the positive incidence of CA19-9, POA,
ferritin
, CEA, DU-PAN-2 and SLX in those spent media was 100%, 64%, 64%, 55%, 55% and 36%, respectively. These results suggest that the A7 antigen may only rarely be shed into the sera of pancreatic cancer patients, in which case MAb A7 could be a suitable drug-carrier in targeting chemotherapy for pancreatic cancer patients.
...
PMID:Expression of the cell surface antigen detected by the monoclonal antibody A7 in pancreatic carcinoma cell lines. 132 20
Subclones of the SW 613-S human
colon carcinoma
cell line differ by their ability to induce tumors in nude mice and by their level of amplification of the c-myc gene. Clones with a high level of amplification are tumorigenic in nude mice whereas those with a low level are not. Genes overexpressed in the tumorigenic clones as compared to the nontumorigenic ones were searched by differential screening of a cDNA library. Two cDNA clones corresponding to cytokeratin K18 and
ferritin
-H chain were isolated. The steady state level of the corresponding mRNAs is higher in cells of all tumorigenic clones. The level of cytokeratin K8 mRNA, the specific partner of cytokeratin K18 in intermediate filaments of epithelial cells, is also elevated in these cells. For all three genes, this is mainly due to an increase in the transcription rate, as shown by a nuclear run-on assay. Immunoblotting experiments showed that cytokeratins K8, K18, and K19 are more abundant in cells of tumorigenic clones. The mRNA of the other subunit of apo-
ferritin
(
ferritin
-L chain) is expressed at the same level in both types of clones. The mRNAs of cytokeratins K18 and K8 and of
ferritin
-H chain are also overexpressed in cells of nontumorigenic clones which have acquired a tumorigenic phenotype after transfection of c-myc gene copies.
...
PMID:Increased expression of cytokeratin and ferritin-H genes in tumorigenic clones of the SW 613-S human colon carcinoma cell line. 137 34
Immunoelectron microscopy was used to localize the brush border hydrolases sucrase-isomaltase (SI) and dipeptidylpeptidase IV (DPPIV) in the human
colon carcinoma
cell line Caco-2. Both enzymes were detected at the microvillar membrane, in small vesicles and multivesicular bodies (MVBs), and in lysosomal bodies. In addition, DPPIV was found in the Golgi apparatus, a variety of apical vesicles and tubules, and at the basolateral membrane. To investigate whether the hydrolases present in the lysosomal bodies were endocytosed from the apical membrane, endocytic compartments were marked with the endocytic tracer cationized
ferritin
(CF). After internalization from the apical membrane through coated pits, CF was first recovered in apical vesicles and tubules, and larger electronlucent vesicles (early endosomes), and later accumulated in MVBs (late endosomes) and lysosomal bodies. DPPIV was localized in a subpopulation of both early and late endocytic vesicles, which contained CF after 3 and 15 min of uptake, respectively. Also, internalization of the specific antibody against DPPIV and gold labeling on cryosections showed endocytosed DPPIV in both early and late endosomes. However, unlike CF, no accumulation of DPPIV was seen in MVBs or lysosomal bodies after longer chase times. The results indicate that in Caco-2 cells the majority of brush border hydrolases present in lysosomal bodies are not endocytosed from the brush border membrane. Furthermore, the labeling patterns obtained, suggest that late endosomes may be involved in the recycling of endocytosed DPPIV to the microvilli.
...
PMID:Intracellular localization and endocytosis of brush border enzymes in the enterocyte-like cell line Caco-2. 167 71
In this paper, we examine the mechanisms that regulate the expression of the heavy (H)
ferritin
subunit in the
colon carcinoma
Caco-2 cell line allowed to differentiate spontaneously in vitro. The differentiation process of these cells in continuous culture is accompanied by an accumulation of the mRNA coding for the
apoferritin H
chain. The analysis of Caco-2 subclones stably transfected with an H-chain promoter-chloramphenicol acetyltransferase (CAT) construct revealed that the mRNA increase is paralleled by an enhanced transcription of the H gene, driven by the -100 to +4 region of the H promoter. The H gene transcriptional activation seems to be a specific feature of differentiated Caco-2 cells, since the activity of other promoters did not change upon differentiation. The -100 to +4 region of the H promoter binds a transcription factor called Bbf (B-box binding factor); electrophoretic-mobility-shift-assay analyses showed that the retarded complex due to Bbf-H promoter interaction is significantly increased in the differentiated cells. We propose that the activation of H-
ferritin
gene expression may be associated with the establishment of a differentiated phenotype in Caco-2 cells, and that the H-
ferritin
gene transcriptional up-regulation is accompanied by a modification in the activity of the transcription factor Bbf.
...
PMID:Transcriptional activation of the H-ferritin gene in differentiated Caco-2 cells parallels a change in the activity of the nuclear factor Bbf. 748 31
Although it generally does not improve performance, iron is often used by elite athletes. The physiologic changes induced by exercise can mimic iron deficiency and decrease hemoglobin and
ferritin
concentrations. Determination of serum transferrin receptor concentrations may identify true iron deficiency, which occurs particularly in young athletes. In contrast, increased iron stores in the body are a frequent finding in elite athletes who have used long-term iron supplementation. Elite runners have increased intestinal blood loss, but this usually can be compensated by enhanced absorption of dietary iron. The combination of exercise-induced hemolysis with enhanced intestinal blood loss in various endurance sports leads to severe abnormalities of routine tests, and extreme physical activity may be responsible for positive fecal occult blood determinations. Indiscriminate iron supplementation carries the risk of inducing hemochromatosis in individuals homozygous for the widespread C282Y allele of the HFE gene. This polymorphism is common and can be found in about 1% of individuals of Northern European descent; moreover, iron supplementation can modify the presentation of important underlying diseases such as celiac disease or
colon carcinoma
. In conclusion, iron supplements should be prescribed for athletes with iron-deficiency anemia and carefully monitored if given for prophylaxis; unless a therapeutic response occurs, investigations to establish the cause of iron deficiency should be initiated.
...
PMID:Iron supplementation in athletes--first do no harm. 1521 43
Iron-containing antianemic drug ferric-sorbitol-citrate (FSC) inhibits the proliferation of various cancer cell lines in vitro and causes a regression of experimental murine tumors in vivo but does not affect the proliferation of nonmalignant cells. Growth modification caused by FSC iron involves a diminished expression of Bcl-2 and an overexpression of p53 proto-oncogene, accompanied by an increased incidence of apoptosis. Aiming to evaluate further the activity principle of the anticancer effects of this antianemic drug, in this study, we analyzed the utilization of iron from FSC and the effects of FSC iron on transferrin receptor 1 (TfR1) and
ferritin
expression. Without FSC iron, all the cell lines had an equal expression of TfR1, but if cultured in FSC-supplemented medium, human colon SW620 and laryngeal carcinoma Hep cells exhibited a lower expression of TfR1-positive cells than nonmalignant Wi38 fibroblasts and pancreatic carcinoma MiaPaCa2 cells. The most sensitive to FSC iron were
colon carcinoma
SW620 cells, whereas Wi38 fibroblasts were not sensitive at all. Increased iron uptake by
colon carcinoma
cells was noticed in the first 3 hours of the incubation with FSC iron, whereas higher FSC iron concentrations and longer incubation also impaired
ferritin
expression in SW260
colon carcinoma
cells. Thus, the anticancer ability of FSC could result from its higher initial utilization of iron and consecutive negative signal for the expression of TfR1 in tumor cells. Tumor cells containing lower amounts of
ferritin
are probably more sensitive to oxidative stress caused by iron overload, whereas FSC iron itself was proven to be chemically stable and did not induce lipid peroxidation.
...
PMID:Uptake of anti-anemic substance ferric-sorbitol-citrate by normal and malignant cells and its effects on expression of transferrin receptor 1 and ferritin. 1725 79
