ABSTRACT
A second-generation series of biscyclometalated 2-(5-aryl-thienyl)-benzimidazole and -benzothiazole Ir(III) dppz complexes [Ir(C^N)2(dppz)]+, Ir1-Ir4, were rationally designed and synthesized, where the aryl group attached to the thienyl ring was p-CF3C6H4 or p-Me2NC6H4. These new Ir(III) complexes were assessed as photosensitizers to explore the structure-activity correlations for their potential use in biocompatible anticancer photodynamic therapy. When irradiated with blue light, the complexes exhibited high selective potency across several cancer cell lines predisposed to photodynamic therapy; the benzothiazole derivatives (Ir1 and Ir2) were the best performers, Ir2 being also activatable with green or red light. Notably, when irradiated, the complexes induced leakage of lysosomal content into the cytoplasm of HeLa cancer cells and induced oncosis-like cell death. The capability of the new Ir complexes to photoinduce cell death in 3D HeLa spheroids has also been demonstrated. The investigated Ir complexes can also catalytically photo-oxidate NADH and photogenerate 1O2 and/or â¢OH in cell-free media.
Subject(s)
Antineoplastic Agents , Coordination Complexes , Dermatitis, Phototoxic , Neoplasms , Humans , Coordination Complexes/pharmacology , Iridium/pharmacology , Photosensitizing Agents/pharmacology , Photosensitizing Agents/therapeutic use , Dermatitis, Phototoxic/drug therapy , Lysosomes , Benzothiazoles , Antineoplastic Agents/pharmacology , Cell Line, Tumor , Neoplasms/drug therapyABSTRACT
Photodynamic therapy (PDT) represents a promising approach for cancer treatment. However, the oxygen dependency of PDT to generate reactive oxygen species (ROS) hampers its therapeutic efficacy, especially against hypoxic solid tumors. In addition, some photosensitizers (PSs) have dark toxicity and are only activatable with short wavelengths such as blue or UV-light, which suffer from poor tissue penetration. Herein, we developed a novel hypoxia-active PS with operability in the near-infrared (NIR) region based on the conjugation of a cyclometalated Ru(ii) polypyridyl complex of the type [Ru(C^N)(N^N)2] to a NIR-emitting COUPY dye. The novel Ru(ii)-coumarin conjugate exhibits water-solubility, dark stability in biological media and high photostability along with advantageous luminescent properties that facilitate both bioimaging and phototherapy. Spectroscopic and photobiological studies revealed that this conjugate efficiently generates singlet oxygen and superoxide radical anions, thereby achieving high photoactivity toward cancer cells upon highly-penetrating 740 nm light irradiation even under hypoxic environments (2% O2). The induction of ROS-mediated cancer cell death upon low-energy wavelength irradiation along with the low dark toxicity exerted by this Ru(ii)-coumarin conjugate could circumvent tissue penetration issues while alleviating the hypoxia limitation of PDT. As such, this strategy could pave the way to the development of novel NIR- and hypoxia-active Ru(ii)-based theragnostic PSs fuelled by the conjugation of tunable, low molecular-weight COUPY fluorophores.
ABSTRACT
We present the synthesis and characterization of six new heteroleptic osmium(II) complexes of the type [Os(C^N)(N^N)2]OTf (N^N = 2,2'-bipyridine and dipyrido[3,2-d:2',3'-f]quinoxaline; C^N = deprotonated methyl 1-butyl-2aryl-benzimidazolecarboxylate) with varying substituents in the R3 position of the phenyl ring of the cyclometalating C^N ligand. The new compounds are highly kinetically inert and absorb a full-wavelength range of visible light. An investigation of the antiproliferative activity of the new compounds has been performed using a panel of human cancer and noncancerous 2D cell monolayer cultures under dark conditions and green light irradiation. The results demonstrate that the new Os(II) complexes are markedly more potent than conventional cisplatin. The promising antiproliferative activity of selected Os(II) complexes was also confirmed using 3D multicellular tumor spheroids, which have the characteristics of solid tumors and can mimic the tumor tissue microenvironment. The mechanism of antiproliferative action of complexes has also been investigated and revealed that the investigated Os(II) complexes activate the endoplasmic reticulum stress pathway in cancer cells and disrupt calcium homeostasis.
Subject(s)
Antineoplastic Agents , Coordination Complexes , Neoplasms , Humans , Structure-Activity Relationship , Osmium/pharmacology , Calcium , Cell Line, Tumor , Benzimidazoles/pharmacology , Homeostasis , Antineoplastic Agents/pharmacology , Coordination Complexes/pharmacologyABSTRACT
Our study demonstrates that four novel kinetically inert C,N-cyclometalated RuII complexes of the type [Ru(C^N)(N^N)2 ][PF6 ] containing a handle for functionalization on the C^N ligand are very potent cytotoxic agents against several different human cancer cell lines and are up to 400-fold more potent than clinically used cisplatin. In addition, the investigated ruthenium complexes are less cytotoxic in noncancerous cells, and exhibit higher selectivity for cancer cells than conventional platinum anticancer drugs. The high potency of the investigated ruthenium compounds can be attributed to several factors, including enhanced internalization and their capability to change mitochondrial transmembrane potential in cells. The new ruthenium complexes also interfere with protein synthesis with a markedly higher potency than conventional inhibitors of DNA translation. Notably, the latter mechanism has not been hitherto described for other cytotoxic Ru compounds and cisplatin.
Subject(s)
Antineoplastic Agents/chemistry , Coordination Complexes/chemistry , Ruthenium/chemistry , Antineoplastic Agents/metabolism , Antineoplastic Agents/toxicity , Apoptosis/drug effects , Carbon/chemistry , Cell Cycle Checkpoints/drug effects , Cell Line, Tumor , Cisplatin/toxicity , Coordination Complexes/metabolism , Coordination Complexes/toxicity , Drug Resistance, Neoplasm/drug effects , Drug Screening Assays, Antitumor , Humans , Ligands , Membrane Potential, Mitochondrial/drug effects , Microscopy, Confocal , Nitrogen/chemistry , Reactive Oxygen Species/metabolismABSTRACT
Very small size proteoliposomes (VSSP) constitute a complex of very small size proteoliposomes that includes proteins, lipids, CpG and gangliosides tumor-associated that provides a potential target for cancer immunotherapy. This compound has been described to stimulate the humoral and cellular response, dendritic cells (DC) activation and differentiation of T-helper cells, specially, in immunocompromised patients with cancer status. This work deals with the stimulating capacity of the VSSP to reach a humoral response when they are used as a component in a peptidic vaccine based on the gonadotrophin releasing hormone (GnRH). This study was carried out in male Copenhagen rats, which were immunized with 750µg of the GnRH mimetic peptide (GnRHm1-TT) with or without the VSSP. The mixtures were always emulsified with the oil adjuvant Montanide ISA 51. The anti GnRH seroconversion analysis revealed that the group immunized with the peptide GnRHm1-TT/VSSP developed a strong anti GnRH seroconversion. These antibody levels proved to be significant superior to those reached by the use of the GnRHm1-TT peptide solely emulsified in Montanide. Post-mortem analysis on the Testosterone ablation target organs (prostate and testicles) yielded a sudden decrease in their size and weight in respect to the control group. On the other hand, the group submitted to the use of GnRHm1-TT/VSSP, showed a significant difference in the reduction of these target organs in comparison with the group only immunized with GnRHm1-TT adjuvated in Montanide ISA 51. These values turned to be of p=0.023 and p=0.009 in the prostate and testicles respectively. These findings foreground the VSSP as a useful immunopotentiator to be used as part of a GnRH based vaccine to treat prostate cancer.
Subject(s)
Adjuvants, Immunologic/administration & dosage , Cancer Vaccines/immunology , Gonadotropin-Releasing Hormone/immunology , Mannitol/analogs & derivatives , Oleic Acids/administration & dosage , Prostatic Neoplasms/immunology , Proteolipids/administration & dosage , Animals , Antibodies/blood , Cancer Vaccines/administration & dosage , Gonadotropin-Releasing Hormone/administration & dosage , Male , Mannitol/administration & dosage , Prostatic Neoplasms/pathology , Prostatic Neoplasms/therapy , RatsABSTRACT
La fimbriacion en cepas de Escherichia coli enterotoxigénicas es un proceso complejo controlado por varios mecanismos: reguladores globales y locales de la transcripción y el control postranscripcional, e influenciado por factores como velocidad de crecimiento bacteriano, composición del medio de cultivo, temperatura y pH, entre otros. Estas características propician que la expresión fimbrial se pierda con alta frecuencia. De allí que se requieran procedimientos de cultivo que favorezcan el mantenimiento de dicha expresión. Con ese objetivo, en el trabajo la población bacteriana fimbriada se enriquecio mediante cultivo estático en caldo Mueller-Hinton. Luego, la expresión fimbrial se mantuvo mediante el crecimiento en forma consecutiva en agar CFA, y el caldo Minca o Mínimo, según el tipo fimbrial, en los que se alcanzó la máxima expresión a las 4-5h de cultivo. Las fimbrias se extrajeron mediante tratamiento térmico y se precipitaron con sulfato de amonio al 40 por ciento. La purificación se realizó mediante exclusión molecular y el tratamiento con deoxicolato de sodio. La metodología propuesta integra procedimientos conocidos en un proceso simple y reproducible para la obtención de las fimbrias F4, F5, F6 y F41 en cantidades suficientes para su posterior uso en la generación de anticuerpos, el desarrollo de inmunoensayos y otros estudios a escala de laboratorio, que necesiten de preparaciones con una pureza superior al 80 por ciento, que mantengan su estructura nativa
