Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P30536 (PBS)
 9,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We developed a porous hydroxyapatite ceramic (HAP) incorporating adriamycin (ADM), that is, ADM-HAP as a new delivery system (DDS) to release ADM gradually. We also researched the possibility of hyperthermic chemotherapy using ADM-HAP by in vitro and in vivo experiments. As for in vitro experiments, we implanted HAPs into uniform Agar-Phantom, and observed thermal distribution generated by Thermotron-RF 8 using thermography. Then we found the hot spot that the edge temperature of HAPs always at the range of 0.5-0.7 degrees C than in the other regions. On the other hand, slow constant release (1%) of ADM from ADM-HAP in PBS was recognized for 24 hrs up to 30 days. When the incubating temperature was shifted up to 42.5 degrees C or 44 degrees C from 37 degrees C, the quantity released over 24 hrs increased about 1.1-fold or 1.3-1.4-fold of the cases at 37 degrees C, respectively. In the in vivo experiment, we inoculated Sarcoma 180 cells in the leg of ddY-mice, and measured the tumor growing times by the treatment of hyperthermia+ADM (whole body), hyperthermia+ADM (tumor region) or hyperthermia+ADM-HAP (tumor region). Then we found that the effect of hyperthermia with ADM-HAP inhibited synergistically the tumor growth as compared with hyperthermia with ADM. Consequently, we succeeded in tumor growth inhibition by increasing the temperature and by limiting ADM release to only a target region using hyperthermia with ADM-HAP.
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PMID:[Fundamental study on hyperthermic chemotherapy using adriamycin-loaded hydroxyapatite]. 132 24

This paper describes the process of encapsulating hair growing ingredients in the PLGA nanospheres by emulsion solvent diffusion method and investigates the feasibility of using the PLGA nanospheres as the DDS (Drug delivery System) carriers for delivering various hair growing ingredients to hair follicles. In-vitro and in-vivo tests were conducted to verify the performances of encapsulated PLGA nanospheres with three different hair growing ingredients. In the in-vitro tests, the scalp-pore permeability of hair growing ingredient encapsulated PLGA nanospheres (dispersed in the PBS solution) was examined using human scalp biopsies in a modified Bronaugh diffusion chamber in comparison to that of the control samples containing the hair growing ingredient in the PBS solution. Furthermore, the hair growing effect of the encapsulated PLGA nanospheres was evaluated with the C3H mice in the in-vivo tests. By observing the fluorescence intensity of the ingredients, as shown in the cross-section photographs of the human scalp biopsies, it was found that the dispersion liquids containing hair growing ingredient encapsulated PLGA nanospheres exerted a scalp-pore permeability 2.0- to 2.5-fold more marked than that of the control samples. Also, the hair growing activities were enhanced by using the encapsulated PLGA nanospheres, which transformed the hair growth cycle from the resting phase to the growing phase. As a result, the degree of hair growth was improved significantly. These results suggested that the PLGA nanosphere can be a new DDS carrier for delivering hair growing ingredients and drugs to the hair follicles.
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PMID:Evaluation of the permeability of hair growing ingredient encapsulated PLGA nanospheres to hair follicles and their hair growing effects. 1765 51

Antiangiogenic cancer therapy based on nanoparticulate drug delivery systems (nano-DDS) is emerging as a promising new approach besides the proved molecular-targeted antiangiogenic agents. The current nano-DDS are restricted to the targeting to tumor vascular endothelial cells, but seldom efforts have been made to target the tumor vascular pericytes which are also actively involved in tumor angiogenesis. In this study, we developed a new nano-DDS, TH10 peptide (TAASGVRSMH) conjugated nanoparticles loading docetaxel (TH10-DTX-NP) that can target the NG2 proteoglycan highly expressed in tumor vascular pericytes, for the investigation of therapeutic efficacy in the mice bearing B16F10-luc-G5 melanoma experimental lung metastasis. The results demonstrated that TH10-DTX-NP achieved controlled drug release in PBS and the mixture of rat plasma and PBS (1:1, v/v), and exhibited favorable in vivo long-circulating feature. TH10 peptide conjugation facilitated the nanoparticle internalization in pericytes via the interaction between TH10 and NG2 receptor, leading to more inhibition of pericyte viability and migration. TH10-conjugated nanoparticles could accurately target the vascular pericytes of B16F10-luc-G5 lung metastasis, where DTX-induced pronounceable pericyte apoptosis. TH10-DTX-NP significantly prolonged the mice survival with no obvious toxicity, and this enhanced antitumor effect was closely related with the decreased pericyte density and microvessel density in the lung metastases. The present research reveals the potency and significance of targeting tumor vascular pericytes using nano-DDS in antiangiogenic cancer therapy.
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PMID:Selective eradication of tumor vascular pericytes by peptide-conjugated nanoparticles for antiangiogenic therapy of melanoma lung metastasis. 2439 68