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

A variety of photodynamic sensitizers (chloroaluminum sulfonated phthalocyanine, tetraphenyl porphine sulfonate, mono-L-aspartyl chlorin e6, Photofrin, chlorin e6, and Uroporphyrin dihydrochloride I) were characterized by their ability to be retained in EMT-6 tumors growing in BALB/c mice. Two properties uniquely associated with tumors, proliferating neovasculature and vascular permeability, were tested for their relative importance in retaining the photosensitizer. A chick embryo model was used to compare photosensitizer uptake/retention in proliferating and nonproliferating neovasculature with retention in proliferating nonvascular tissue. Our results provide evidence that photosensitizers which are preferentially retained by tumors have a selective affinity for proliferating neovasculature. The chloroaluminum sulfonated phthalocyanine and tetraphenyl porphine sulfonate compounds possess the greatest affinity for proliferating neovasculature relative to nonvascular tissue, while the phthalocyanine has the largest tumor/normal differential in vivo of all the photosensitizers tested. Chlorin e6 and uroporphyrin dihydrochloride I were the only photosensitizers which were not retained in greater amounts by tumor tissues relative to normal tissues. Using a delayed-type hypersensitivity reaction, extended and constant vascular permeability was induced in BALB/c mice. Vascular permeability was quantitated by Evans blue extraction from the delayed-type hypersensitivity sites. Interestingly, leaky vessels alone did not result in photosensitizer retention, as seen with tumors. These data demonstrate that tumor-retained photosensitizers possess a selective affinity for proliferating neovasculature and that vascular permeability alone is not sufficient to retain these sensitizers.
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PMID:Role of neovasculature and vascular permeability on the tumor retention of photodynamic agents. 137 Oct 89

Hyperthermia induced by a microwave source (2,450 MHz) was used alone and in combination with photodynamic therapy (PDT) to treat the SMT-F, EMT-6, and RIF animal tumors in vivo. PDT was administered using either Photofrin I or II as the photosensitizer and an argon-pumped tunable dye laser (630 nm) as the light source. Greater than additive increases in long-term tumor control were achieved when hyperthermia was given immediately post-PDT in the SMT-F and RIF tumor systems. Only additive (or independent) increases in tumor control were achieved when hyperthermia was given immediately before PDT in all these tumor systems and when heat was applied post-PDT using the EMT-6 tumor. In a series of experiments using the SMT-F tumor, it was observed that decreases in PDT drug or light doses could be offset (in terms of tumor control) by the addition of a subsequent heat treatment. This result, along with others presented, indicates the clinical potential of PDT and hyperthermia as adjuvant cancer modalities.
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PMID:Hyperthermic potentiation of photodynamic therapy employing Photofrin I and II: comparison of results using three animal tumor models. 295 50

Hexadecafluorinated zinc phthalocyanine (ZnPcF16), an analogue of zinc phthalocyanine (ZnPc) in which all hydrogen atoms have been substituted by fluorine, was prepared as a single isomeric product via the condensation of tetrafluorophthalonitrile with zinc acetate. Fluorination renders the ZnPc soluble in most common solvents. The photodynamic properties and pharmacokinetics of the ZnPcF16 were evaluated in EMT-6 tumour-bearing Balb/c mice using 65Zn-radiolabelled analogues. Both dyes, administered i.v. at 1 mumol kg-1 as Cremophor emulsions, revealed good tumour uptake [approximately 8-9 per cent of the injected dose per g tissue (%IDg-1)] at 24 h post injection (p.i.), with the fluorinated dye reaching higher concentrations (approximately 11%IDg-1) at 48 h p.i. and subsequently higher tumour-blood ratios due to rapid blood clearance. ZnPcF16 at a dose of 5 mumol kg-1 (4.3 mg kg-1) induced complete tumour regression after phototherapy (24 h p.i., 650-700 nm band, 360 J cm-2, 200 mW cm-1). At a dose of 2 mumol kg-1 and phototherapy at 24 h p.i., the tumour volume doubling time increased to 11 days vs 6 days for the control tumours. A similar tumour growth delay was observed when phototherapy was conducted at 48 h or 72 h after dye injection implying that tumour response correlates with tumour dye concentrations rather than serum concentrations. As a result of its low solubility, the administered dose of ZnPc was limited to 1 mumol kg-1 and at this drug level significant tumour response was only observed when the dye was solubilised as the pyridinium salt. Isolation of the neoplastic cells after in vivo dye administration and in vitro exposure to red light followed by a colony formation assay showed that the ZnPcF16 exhibited a 1-2 order of magnitude higher potential for direct cell killing as compared with Photofrin and about a five times lower efficiency than ZnPc. However, all three photosensitisers induced complete occlusion of tumour vasculature immediately after PDT, suggesting that tumour regression mainly resulted from vascular stasis. The ZnPcF16 offers several advantages over ZnPc for clinical applications, including improved solubility in most solvents, resulting in facilitated drug formation, favourable pharmacokinetics as well as the potential use in fluorine magnetic resonance (F-MR) imaging.
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PMID:Hexadecafluorinated zinc phthalocyanine: photodynamic properties against the EMT-6 tumour in mice and pharmacokinetics using 65Zn as a radiotracer. 855 82

The photodynamic therapy (PDT) activity of the bis(dimethylthexylsiloxy)silicon 2,3-naphthalocyanine (SiNc 8) was evaluated against the EMT-6 tumor implanted intradermally in BALB/c mice. The SiNc 8 was formulated in aqueous emulsions based on Cremophor EL or Solutol HS 15. The formulation was shown to affect plasma clearance and overall pharmacokinetics. Compared to Cremophor, Solutol promoted rapid plasma clearance and high liver retention of the dye, combined with a slight increase of dye tumor concentrations. The PDT action spectrum for tumor response of SiNc 8 in Cremophor (190 mW cm-2, 200 J cm-2, 24 h postinjection [p.i.] of 1 mumol kg-1) showed a maximum at 780 nm, which corresponds to the absorption maximum of the monomeric dye as well as the in vivo maximum change in the "diffuse optical density" produced by the dye. The extent of tumor necrosis increased with augmented dye and light doses. Regardless of the formulation, at 1 h p.i. of 0.1 mumol kg-1 SiNc 8, PDT efficiency (190 mW cm-2, 400 J cm-2) was high but accompanied by severe damage to normal tissues, at 24 h p.i. PDT resulted in complete tumor regression in 80% of the animals without adverse effects to adjacent tissues, while at 72 h p.i. PDT induced no tumor response with Cremophor and only a partial response with Solutol. At the latter time point, plasma dye clearance was nearly complete while tumor tissue levels remained high, suggesting that tumor response correlates with plasma rather than tumor dye levels. Skin sensitivity of SKhI mice to solar-simulated radiation was lower with SiNc 8 as compared to Photofrin. Our data suggest the potential of SiNc 8 as a far-red absorbing photosensitizer in clinical PDT.
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PMID:Photodynamic activities and skin photosensitivity of the bis(dimethylthexylsiloxy)silicon 2,3-naphthalocyanine in mice. 857 Jul 40

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

Pheophorbide a prepared from the algae Spirulina was derivatized at the C(7)-carboxylic group by linking amino alkyls of various lengths and terminal functional groups. The compounds were purified by thin-layer chromatography (TLC) and by high-pressure liquid chromatography (HPLC). Solubilization of compounds by serum lipoproteins, the kinetics of compound uptake into mammalian cells, and photosensitizing effectiveness when activated by 673 nm laser light have been studied. Optimal photosensitizer uptake into cells and the greatest photosensitizing activity were observed with compounds having side-chain lengths of 4-6 carbon atoms which terminated in -OH and -CH3 groups. The most effective compounds were 3 orders of magnitude more potent than Photofrin in the degree of photoinactivation of cultured EMT-6 tumor cells. HDL and LDL significantly promoted the efflux of these photosensitizing drugs from cells, suggesting that their long-term retention in normal tissues in vivo would be minimal and produce little phototoxicity.
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PMID:Uptake by cells and photosensitizing effectiveness of novel pheophorbide derivatives in vitro. 884 42

The clinical perfusion agent 99mTc-MIBI was used to monitor changes in tumor vascular perfusion (TVP) induced by Photofrin (PII)-mediated photodynamic therapy (PDT). BALB/c mice bearing an EMT-6 tumor on each hind thigh were given an intravenous injection of 1, 2 or 5 mg kg-1 PII. Twenty-four hours later, one tumor was illuminated (600-650 nm, 200 mW cm-2, 400 J cm-2) while the other served as a control. At various time intervals after PDT (0, 2 and 24 h) mice received an intravenous injection of 99mTc-hexakismethoxyisobutylisonitrile (MIBI) (0.18 MBq g-1) and were sacrificed 2 min later. The light-treated and the untreated tumors were then dissected, the radioactivity was counted and the percentage of the injected dose per gram of tumor (%ID g-1) was calculated as a measure of TVP. We observed that TVP is drug dose dependent, develops progressively with time post-PDT and is inversely related to PDT efficacy. Our data show that early tumor retention of 99mTc-MIBI is a simple method to assess TVP and vascular damage induced by PDT.
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PMID:Measurement of tumor vascular damage in mice with 99mTc-MIBI following photodynamic therapy. 886 77

Endothelin-1 (ET-1) and JAK2 are both implicated in diabetic complications. Therefore, we investigated whether ET-1 differentially activates JAK2 under conditions of normal (5 mM) and high (25 mM) glucose. We tested the hypothesis that reactive oxygen species mediate the activation of JAK2 in response to ET-1. In rat aortic vascular smooth muscle cells (VSMC), ET-1 (10 (- 7) M, 5 min) stimulated the activation of JAK2, which was further enhanced under high glucose conditions. Allopurinol (xanthine oxidase inhibitor, 1 microM) and l-NAME (nitric oxide synthase inhibitor, 1 mM) had no effect on ET-1-induced JAK2 activation, while apocynin (NAD(P)H oxidase inhibitor 100 microM) resulted in a significant inhibition of ET-1-induced JAK2 and MAPK activation. Overexpression of SOD did not inhibit ET-1-induced activation of JAK2, but catalase (50 units/mL) treatment resulted in complete inhibition. In vivo administration of apocynin (1.5 mM) resulted in a significant decrease ( 50%), while the ETA receptor antagonist ABT-627 completely inhibited phosphorylation of JAK2 in aortae from STZ-induced diabetic rats. Additionally, DHE staining of aortic sections was significantly reduced in diabetic rats treated with ABT-627. These data suggest that in VSMC, ET-1 via the ETA receptor, utilizes NAD(P)H oxidase to activate JAK2.
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PMID:Endothelin-1 activation of JAK2 in vascular smooth muscle cells involves NAD(P)H oxidase-derived reactive oxygen species. 1629 54