Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Since aluminum is an extremely difficult element to determine reliably in biological samples, no National Institute of Standards and Technology (NIST) biological standard reference material for tissue has yet been certified for aluminum. A chemical neutron activation analysis procedure employing anion-exchange chromatography was developed. The procedure proved successful in decontaminating radioactivatable sodium and chlorine and phosphorus which can produce aluminum via a fast neutron bombardment. For bovine liver (NIST SRM 1577 a) a value of 2.1 +/- 0.2 micrograms of aluminum/g of sample was determined, comparing favorably to the uncertified value 2 micrograms/g sample. For freeze-dried urine (NIST SRM 2670) a value of 0.18 +/- 0.01 micrograms of aluminum/mL of urine was observed. Its uncertified value is 0.18 micrograms of aluminum/mL of sample. Twenty three individual samples in three different human brains were analyzed for their aluminum content.
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PMID:Determination of aluminum by chemical and instrumental neutron activation analysis in biological standard reference material and human brain tissue. 146 15

Aluminium phthalocyanines substituted to different degrees with hydrophilic sulphonic acid and hydrophobic phthalimidomethyl groups were investigated in vivo as new agents for the photodynamic therapy of malignant tumours. Parameters studied included the photodynamic action on EMT-6 mammary tumours in BALB/c mice, the therapeutic window and the potential for direct cell killing, assayed via an in vivo/in vitro test. Although the efficiency of photoinactivation of the EMT-6 tumour increases by a factor of ten with reduction of the number of sulphonic acid groups from four to two, no further effect was seen with the addition of the hydrophobic phthalimidomethyl groups. Addition of the latter groups however increased the potential for direct cell killing by a factor of two and expanded the therapeutic window by a factor of four, thus improving the usefulness of the dye as a photosensitiser for the photodynamic therapy of cancer.
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PMID:Biological activities of phthalocyanines. XIV. Effect of hydrophobic phthalimidomethyl groups on the in vivo phototoxicity and mechanism of photodynamic action of sulphonated aluminium phthalocyanines. 161 52

Aluminum (Al) overload in dialysis patients and experimental animals is associated with the development of anemia. However, the precise mechanisms of erythrocyte Al uptake and toxicity are poorly understood. Al accumulation, hemoglobin (Hb) synthesis and cell growth were evaluated in dimethylsulfoxide (DMSO)-induced Friend erythroleukemia cells (FEC), a model system for erythroid differentiation. FEC were grown in media containing either Al citrate, transferrin-aluminum (Tf-Al), Tf or no additions. Al accumulation occurring only in cells grown in Tf-Al containing media was detected at 24 hours and increased linearly up to 96 hours after induction. By 96 hours, 200 +/- 36 micrograms Al/liter lysed cells were detected in Tf-Al grown cells versus 5 +/- 1 micrograms Al/liter lysed cells in cells grown in Al citrate (P less than 0.001). Tf-Al inhibited Hb synthesis at 72 hours after induction. At 96 hours 50 +/- 15% cells were benzidine positive when grown in Tf-Al compared to 76 +/- 15% in Al citrate (P less than 0.001). FEC grown in increasing concentrations of Tf-Al (100 to 500 micrograms/ml) showed inhibition of Hb synthesis at lower concentrations of Tf-Al at 100 micrograms/ml than for cell growth at 300 micrograms/ml. Higher concentrations of Tf-Al (greater than 300 micrograms/ml) did not further inhibit Hb synthesis or cell growth. Iron (Fe) and Tf uptake were increased in Al loaded FEC compared to control cells. The increased Tf uptake was probably the result of increased Tf receptor expression on FES since Tf cell cycling time was unchanged. These data indicate that Al utilizes the Tf uptake pathway for entry into erythrocyte precursors. Al is toxic at sites distal to Fe uptake, possibly at the heme and/or globin synthetic pathways, resulting in decreased Hb synthesis and cell growth.
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PMID:Aluminum inhibits hemoglobin synthesis but enhances iron uptake in Friend erythroleukemia cells. 230 57

Aluminium in liver from reindeer, moose and sheep from the northeast part of Norway was determined by graphite furnace atomic absorption spectrometry following digestion of the samples with nitric acid. The concentration of aluminium in the liver was markedly higher for reindeer than for moose and sheep; the median values obtained were 0.56 microgram g-1 Al (wet wt.) for 101 reindeer, 0.06 microgram g-1 Al for 72 moose and 0.09 microgram g-1 Al for 40 sheep. The detection limit of the method was 0.01 microgram g-1 Al. The NIST SRM 1577a Bovine Liver was also analyzed.
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PMID:Determination of aluminium in liver from reindeer, moose and sheep by electrothermal atomic absorption spectrometry. 764 11

In order to understand the structural features that might lead to an estrogen receptor (ER) based breast tumor imaging agent with improved uptake characteristics, we have synthesized several new analogs of 16 beta-fluoroestradiol (beta FES) and studied their tissue distribution in immature rats. The compounds we prepared were 11 beta-methoxy-beta FES (7a), 11 beta-ethyl-beta FES (7b), 17 alpha-ethynyl-beta FES (8c), 17 alpha-ethynyl-11 beta-methoxy-beta FES (8a), and 11 beta-ethyl-17 alpha-ethynyl-beta FES (8b). All of the analogs exhibit good affinity for ER, ranging at 25 degrees C from 10 to 460, with estradiol equal to 100. Measurement of their octanol/water partition coefficients by an HPLC method allowed us to estimate their level of nonspecific binding and thereby to predict their binding selectivity indices (BSI, i.e., the ratio of their ER-specific to nonspecific binding); the BSI values of three fluorine-substituted analogs exceed that of estradiol. These ligands have been labeled in the 16 beta position with fluorine-18 by the nucleophilic displacement of an alpha-disposed trifluoromethanesulfonate by [18F]fluoride ion. Reduction with lithium aluminum hydride produced the estradiol series ([18F]-7a-c), while treatment with lithium trimethylsilylacetylide afforded the ethynylated series ([18F]-8a-c). The synthesis time was 85 min for [18F]-7a-c and 120 min for [18F]-8a-c, with radiochemical yields ranging from 16 to 43%, and effective specific activities being 90-2900 Ci/mmol (3.3-107 TBq/mmol). In tissue distribution studies in immature female rats, all of the labeled analogs demonstrated ER-selective uptake in the principal target tissues, the uterus and the ovaries, and also in organs with lower titers of ER, the secondary target sites kidney, thymus, fat, and muscle. Although factors other than specific and nonspecific binding obviously affect the tissue distribution of these 16 beta-fluoroestrogens, we find that their ER-specific uptake by both the principal and the secondary target tissues correlates with their BSI values at a high level of statistical significance in most cases. The ethynylated-11 beta-methoxy analog [18F]-8a had high selectivity (uterus to blood ratio) after 3 h and exhibited the highest uterine uptake (percent injected dose/gram) of any fluorine-substituted estradiol ligand we have studied to date. This compound has been chosen for more detailed studies (to be described elsewhere), including clinical trials in human patients diagnosed with primary breast cancer.
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PMID:16 beta-([18F]fluoro)estrogens: systematic investigation of a new series of fluorine-18-labeled estrogens as potential imaging agents for estrogen-receptor-positive breast tumors. 768 51

The necrosis of EMT-6 mammary murine tumors induced by photodynamic therapy (PDT) with Photofrin (PII) or disulfonated aluminum phthalocyanine (AlPcS2) was studied. Attention was given to the spontaneous evolution of angiogenesis and necrosis of such tumors in order to determine the most appropriate moment for treatment. On day 6 after tumor cell inoculation, mice were injected with photosensitizer followed by exposure to red light 24 h later, at which time optimal dye concentrations were reached in the tumor. Animals were sacrificed 3 h or 24 h after illumination and tissues were prepared for histology. Prominent cytopathic alterations were already observed at 3 h and there was massive necrosis at 24 h. In the case of PII vascular damage, congestion and hemorrhage were already present at 3 h and these changes account for the subsequent tumor necrosis through hemorrhagic infarction. With AlPcS2 these early vascular alterations were much less evident and only focal at 24 h, suggesting that AlPcS2-PDT mediated tumor necrosis involves to a large extent direct tumor cell damage.
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PMID:Biological activities of phthalocyanines. XVII histopathologic evidence for different mechanisms of EMT-6 tumor necrosis induced by photodynamic therapy with disulfonated aluminum phthalocyanine or photofrin. 868 5

A comparison was made of photodynamic therapy (PDT) mediated by two photosensitizers, the disulfonated aluminum phthalocyanine (AlPcS2) and Photofrin* (PII) with regard to their mechanism of action on murine tumors. Balb/c mice bearing intradermally growing EMT-6 tumors were injected intravenously with either 1 mumol kg-1 body weight of AlPcS2 or 5 mg/kg of PII 24 h prior to red light irradiation from a Xenon lamp (650-700 nm, 200 mW cm-2, for AlPcS2 and 600-650 nm, 400 J cm-2 for PII. Tumor cell survival following in vivo PDT was determined by an in vitro clonogenicity assay on the dissociated tumors. Immediately after the completion of light irradiation, a reduction of approximately 72% in the number of clonogenic cells was seen with AlPcS2-treated tumor versus approximately 24% of that for PII-treated tumor. Further loss of clonogenic cell survival progressed as a function of time following PDT, and was considered to be the consequence of indirect PDT action, however, the decline in cell viability was steeper in the first 6 h with PII-PDT than with AlPcS2-PDT. 24 h after PDT, the clonogenic capacity of both AlPcS2-and PII-PDT treated tumor fell to approximately 3% of the control tumor. The PDT effect on tumor blood flow as a measure of the tumor vascular damage was monitored by the retention of 99mTc-MIBI in the tumor. Little effect on tumor blood flow was seen with AlPcS2-PDT at 0 h after the completion of light treatment. Thereafter the blood flow declined slowly and remained at approximately 50% the level of the control by 24 h post-PDT. In contrast, PII provoked a approximately 40% reduction of tumor blood flow immediately after the completion of photo irradiation, which then fell to approximately 20% within 2 h and approximately 7% by 24 h post-PDT. These results indicate the involvement of both direct and indirect mechanisms in the PDT induced tumor necrosis. However, AlPcS2-PDT exerted a larger direct tumor cell phototoxic effect, whereas PII-PDT induced tumor cell death to a greater extent via an indirect effect that parallels the extensive damage to the tumor vasculature.
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PMID:Evidence for different mechanisms of EMT-6 tumor necrosis by photodynamic therapy with disulfonated aluminum phthalocyanine or photofrin: tumor cell survival and blood flow. 871 17

In order to elucidate the relationship of osteogenesis with aluminum and iron deposition, we investigated the histopathological findings of bone in calcium and/or aluminium-deficient rats, together with levels of calcium, aluminium and iron in sera and bone tissues, and also the level of serum parathyroid hormone. Four week old male STD-Wistar rats were divided into four groups to examine the effects of four kinds of diets for ten weeks. The rats on normal diet (Group I) and normal diet+aluminum (Group II) did not show any pathological changes of the bones, but in both calcium-deficient diet group (Group III) and calcium deficient diet added aluminium (Group IV), the compact bone converted into spongy bone in varying degrees, particularly in Group IV. Aluminium deposition was demonstrated at the calcification fronts and the cement lines only in Group IV as red or violet-red lines with aluminium stain, together with iron deposition as revealed with Berlin blue stain, showing similar distribution pattern as aluminum. It was clearly indicated that aluminium and iron, instead of calcium, deposited on the calcification front of the bone under the condition of calcium deficiency, inhibiting the normal osteogenesis.
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PMID:Chronic effect of aluminium ingestion on bone in calcium-deficient rats. 882 6

Fluoride is an acknowledged bone anabolic agent. Nevertheless, a narrow therapeutic window and the adverse effects at higher therapeutic doses prevent broad clinical application of fluoride for treatment of diseases of bone loss, such as osteoporosis. The cellular and molecular mechanisms of fluoride action are poorly understood. recent advances in the elucidation of signal transduction pathways induced by fluoride in osteoblastic cells are reviewed. Fluoride and traces of aluminum form a complex, fluoroaluminate, which stimulates cellular heterotrimeric G proteins. Such complex can form in food, drinking water and in the organism after administration of sodium fluoride. Fluoroaluminate crosses the cell membrane and directly binds to the membrane-associated inactive G alpha protein subunits. Within the G alpha subunit, fluoroaluminate occupies the position next to GDP. The resulting G alpha-GDP-AlF4- complex assumes an active state conformation, which resembles that of G alpha-GTP complex. Under physiological conditions, G alpha-GTP complex is formed upon activation of seven transmembrane receptors that couple to heterotrimeric G proteins. Both fluoroaluminate-activated and receptor-activated G alpha subunits are capable of transmitting intracellular signals that lead to cellular responses. In bone-forming cells osteoblasts, fluoroaluminate stimulates pertussis toxin-sensitive G alpha i proteins. G alpha i activation leads to the reduction in cAMP (cyclic adenosine monophosphate) levels and to the activation of mitogen activated protein kinases, Erks (extracellular signal-regulated kinases) and p70 S6 kinase. These kinases are involved in the regulation of gene transcription and protein syntheses. Fluoroaluminate also stimulates pertussis toxin-insensitive proteins. Pertussis toxin-insensitive G proteins, most likely from G alpha 12 class, cause the activation of several cytoplasmic protein tyrosine kinases [Src, Pyk2 (proline-rich tyrosine kinase 2), and Fak (focal adhesion kinase)]. Activation of Erks can lead to osteoblast proliferation and differentiation, while activation of Src, Pyk2 and Fak can modulate the adhesion properties of osteoblasts. Osteoblast adhesion may, in turn, influence differentiation, migration, and apoptosis of these cells. The susceptibility of osteoblasts to fluoroaluminate can be achieved by their specific cellular context and by the rigidity of the surrounding bone tissue. In particular, higher levels of G alpha i proteins and of certain focal adhesion proteins are expressed by osteoblastic rather than by fibroblastic cells. The rigidity of adhesion substratum of osteoblasts may signal on its own and potentiate the signaling by fluoroaluminate. The information on mechanisms of intracellular signaling by fluoroaluminate can be utilized to identify a fluoroaluminate mimic, a drug that exhibits anabolic action on bone with a broader therapeutic range and less adverse effects than fluoride.
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PMID:Heterotrimeric G proteins as fluoride targets in bone (review). 991 18

Targeted delivery of aluminum tetrasulfophthalocyanine (AlPcS4) to the scavenger receptor of macrophages, via coupling to maleylated bovine serum albumin (mal-BSA), was explored as a means to improve photodynamic efficacy. The AlPcS4 was covalently coupled to BSA (9:1 molar ratio) via one or two sulfonamide-hexanoic-amide spacer chains, followed by treatment with maleic anhydride to yield the mal-BSA-phthalocyanine conjugates. The latter were tested for singlet oxygen production, receptor-mediated cell uptake and phototoxicity toward J774 cells of macrophage origin and nonphagocytic EMT-6 cells. Cell uptake of 125I-mal-BSA showed specific binding for J774 cells but not for EMT-6 cells. Competition studies of the conjugates with 125I-mal-BSA showed that coupling of AlPcS4 to BSA resulted in recognition of the conjugate by the scavenger receptor, whereas coupling to mal-BSA further enhanced its binding affinity. This suggests that affinity for the scavenger receptor is related to the overall negative charge of the protein. Phototoxicity of the conjugates toward J774 cells paralleled their relative affinity, with mal-BSA-AlPcS4 coupled via two spacer chains showing the highest activity. The conjugates were less phototoxic toward the EMT-6 cell line. The activities in both cell lines of all conjugated AlPcS4 preparations were, however, lower than that of the free disulfonated AlPcS2. Possible implications for the in vivo use of protein-photosensitizer conjugates to target selectively various macrophage-associated disorders is discussed.
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PMID:Receptor-mediated targeting of phthalocyanines to macrophages via covalent coupling to native or maleylated bovine serum albumin. 1008 27


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