Protein kinase C epsilon is required for macrophage activation and defense against bacterial infection

Imperial Cancer Research Fund, and grants FEDER 2FD-1997-1432 from Comisión Interministerial de Ciencia y Tecnología (CICYT) and PM98-0120 from Dirección General de Enseñanza Superior e Investigación Científica, Spain. F. Otto was supported by Deutsche Forschungsgemeinschaft grant Ot 134/1-1

Biologically Informed Individual-Based Network Model for Rift Valley Fever in the US and Evaluation of Mitigation Strategies

Citation: Scoglio, C. M., Bosca, C., Riad, M. H., Sahneh, F. D., Britch, S. C., Cohnstaedt, L. W., & Linthicum, K. J. (2016). Biologically Informed Individual-Based Network Model for Rift Valley Fever in the US and Evaluation of Mitigation Strategies. Plos One, 11(9), 26. doi:10.1371/journal.pone.0162759Rift Valley fever (RVF) is a zoonotic disease endemic in sub-Saharan Africa with periodic outbreaks in human and animal populations. Mosquitoes are the primary disease vectors; however, Rift Valley fever virus (RVFV) can also spread by direct contact with infected tissues. The transmission cycle is complex, involving humans, livestock, and multiple species of mosquitoes. The epidemiology of RVFV in endemic areas is strongly affected by climatic conditions and environmental variables. In this research, we adapt and use a network-based modeling framework to simulate the transmission of RVFV among hypothetical cattle operations in Kansas, US. Our model considers geo-located livestock populations at the individual level while incorporating the role of mosquito populations and the environment at a coarse resolution. Extensive simulations show the flexibility of our modeling framework when applied to specific scenarios to quantitatively evaluate the efficacy of mosquito control and livestock movement regulations in reducing the extent and intensity of RVF outbreaks in the United States

Exploiting lipid and polymer nanocarriers to improve the anticancer sonodynamic activity of chlorophyll

Sonodynamic therapy is an emerging approach that uses low-intensity ultrasound to activate a sonosensitizer agent triggering its cytotoxicity for selective cancer cell killing. Several molecules have been proposed as sonosensitizer agents, but most of these, as chlorophyll, are strongly hydrophobic with a low selectivity towards cancer tissues. Nanocarriers can help to deliver more efficiently the sonosensitizer agents in the target tumor site, increasing at the same time their sonodynamic effect, since nanosystems act as cavitation nuclei. Herein, we propose the incorporation of unmodified plant-extracted chlorophyll into nanocarriers with different composition and structure (i.e., liposomes, solid lipid nanoparticles and poly(lactic-co-glycolic acid) nanoparticles) to obtain aqueous formulations of this natural pigment. The nanocarriers have been deeply characterized and then incubated with human prostatic cancer cells (PC-3) and spheroids (DU-145) to assess the influence of the different formulations on the chlorophyll sonodynamic effect. The highest sonodynamic cytotoxicity was obtained with chlorophyll loaded into poly(lactic-co-glycolic acid) nanoparticles, showing promising results for future clinical investigations on sonodynamic therapy

SWCNT-porphyrin nano-hybrids selectively activated by ultrasound: an interesting model for sonodynamic applications

Sonodynamic therapy (SDT) is an innovative anticancer approach, based on the excitation of a given molecule (usually a porphyrin) by inertial acoustic cavitation that leads to cell deathviathe production of reactive oxygen species (ROS). This study aims to prepare and characterize nanosystems based on porphyrin grafted carbon nanotubes (SWCNTs), to understand some aspects of the mechanisms behind the SDT phenomenon. Three different porphyrins have been covalently linked to SWCNTs using either Diels-Alder or 1,3-dipolar cycloadditions. ROS production and cell viability have been evaluated upon ultrasound irradiation. Despite the low porphyrin content linked on the SWCNT, these systems have shown high ROS production and high tumour-cell-killing ability. The existence of a PET (photoinduced electron transfer)-like process would appear to be able to explain these observations. Moreover, the demonstrated ability to absorb light limits the impact of side effects due to light-excitation

CHLOROPHYLLS: FROM EVANTABYPRODUCT TO NATURAL PORPHYRIN SOURCE

EnglishEvanta (Galipea longiflora) is a medicinal specie used as antiparasitic agent by the Tacana Amazonian community. The total alkaloids of this plant have showed interesting results in clinical studies for the treatment of cutaneous Leishmaniasis. During the alkaloids isolation and purification processes, chlorophylls, together with non-useful fractions, are eliminated. Chlorophylls represent an important natural source of porphyrins, which have huge potential applications in many fields (materials, catalysis, nanotechnology, diagnostic and photo- and sono-dynamic therapy). They also possess biological and pharmacological activity (antitumoral, antioxidant and antifungal properties). This work is aimed to isolate, purify and characterize chlorophylls contained in evanta leaves.Italiano L’evanta (Galipea longiflora) è una specie medicinale utilizzata come agente antiparassitario dalla comunità amazzonica tacana. Gli alcaloidi di questa pianta hanno mostrato risultati interessanti negli studi clinici per il trattamento della leishmaniosi cutanea. Durante i processi di isolamento e purificazione degli alcaloidi, le clorofille, insieme alle frazioni non utili, vengono eliminate. Le clorofille potrebbero costituire un'importante fonte naturale di porfirine, le quali hanno potenziali applicazioni in molti campi (materiali, catalisi, nanotecnologie, diagnostica e terapia foto- e sono-dinamica). Posseggono inoltre attività biologica e farmacologica (antitumorali, antiossidanti e antifungini). Questo lavoro è volto ad isolare, purificare e caratterizzare le clorofille presenti nelle foglie di evanta