Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0598934 (tumor growth)
 58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Based on the knowledge that sialic acid is a critical element for tumor development and its receptors are highly expressed on the tumor-associated macrophages (TAMs) which play important roles in the growth and metastasis of tumors, we synthesized a sialic acid-octadecylamine conjugate (SA-ODA) and anchored it on the surface of pixantrone (Pix)-loaded liposomes, to achieve an improved anticancer effect. Four Pix formulations (Pix-S, Pix-CL, Pix-PL and Pix-SAL represent solution, conventional liposome, stealth liposome, and SA-ODA modified liposome, respectively) were developed, and various parameters, including drug loading, stability, in vitro release, cytotoxicity and pharmacokinetics, were evaluated. The tumor growth inhibition and toxicity studies were performed in S180-bearing Kunming mice. Pix-S exhibited a strong toxicity to the immune system, accelerated the growth of tumors and reduced the lifespan of mice. In contrast, Pix-SAL displayed the strongest anticancer and life-prolonging effects among all of the formulations in this study. More importantly, injection of Pix-SAL induced a phenomenon whereby the cancerous tissues were "shed" from mice, after which the wound healed. We speculate that this special efficacy may be partly due to the killing of TAMs by Pix-SAL. This study suggests that SA-ODA modified liposomes may serve as an effective intravenous delivery vehicle for Pix.
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PMID:The anticancer efficacy of pixantrone-loaded liposomes decorated with sialic acid-octadecylamine conjugate. 2470 14

The targeted drug delivery with the help of nanocarriers and the controlled drug release at the lesion sites are the most effective ways to enhance therapeutic efficacy and reduce side effects. Here, we built a light sensitive liposome (Her2-I&D-LSL) which was formed by a special phospholipid (PLsPC) and a hydrophobically modified photosensitizer (ICG-ODA). DOX was employed as the therapeutic drug, encapsulating in the internal phase of the liposome whose surface was modified by Her2 antibodies for recognizing tumor cells with high Her2 receptor expression. Mediated by NIR light, Her2-I&D-LSL was proved to generate sufficient ROS to realize PDT, which then triggered the release of DOX for combined chemotherapy. The ROS generation and DOX release were verified to be strictly controlled by NIR light and the proportion of ICG-ODA. Thanks to the mediation of Her2 receptor, the specific DOX release and the combination of PDT-chemotherapy triggered by NIR light, Her2-I&D-LSL showed a significant accumulation in MCF7 and SKOV3 tumors, thus leading to the strongest tumor growth inhibition effect compared to PDT alone (I-LSL) or chemotherapy alone (D-LSL). Her2-I&D-LSL also possessed a great biocompatibility due to the targeted treatment, holding promise for future cancer therapy in clinic.
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PMID:A photosensitive liposome with NIR light triggered doxorubicin release as a combined photodynamic-chemo therapy system. 2940 24

Mononuclear phagocytes are efficient drug delivery targets for cancers owing to their cancerous tissue-accumulating nature. As receptors of sialic acid, Siglecs (sialic acid-binding immunoglobulin-type lectins) are noticeably found on peripheral blood monocytes (PBMs) and tumor-associated macrophages (TAMs), which renew by the differentiation of recruited PBMs at the tumor site and positively correlate with tumor growth. Given this, a sialic acid-octadecylamine conjugate (SA-ODA) was synthesized and then modified on the surface of liposomal epirubicin (EPI-SAL) as a potent tumor-targeting delivery strategy. A cellular uptake assay indicated that SA-modified liposomes provided improved distribution of the drug in both PBMs and TAMs. Pharmacodynamic tests demonstrated that the antitumor efficacy of the EPI-SAL group was better than that of the other groups, owing to both inhibition of TAMs by EPI-SAL, and high-efficiency targeting of PBMs by EPI-SAL, after which PBMs containing EPI-SAL were recruited to the tumor site and then killed by EPI. Thus, an SA-based targeted delivery strategy effectively interdicted the generation of TAMs. Our research provides the feasibility of the SA-ODA decorated liposome as an active carrier for cancer immunotherapy.
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PMID:Terminating the renewal of tumor-associated macrophages: A sialic acid-based targeted delivery strategy for cancer immunotherapy. 3159 11