Lung cancer remains incurable; therefore, novel therapeutical approaches are ofgreat demand. This study was designed to investigate the effectiveness of cisplatin nanoparticles combined with vitamin-D3 on urethane-induced early lung cancer in rats and to clarify the underlying signaling mechanisms. Early lung cancer was induced in male Wistar rats by urethane. Rats were divided into six groups:I-control, II-cancer untreated, III-cancer + free cisplatin, IV-cancer + cisplatin nanoparticles, V-cancer + free cisplatin + vitamin-D3, VI-cancer + cisplatin nanoparticles + vitamin-D3. Inflammation, proliferation, and apoptosis were evaluated together with the levels of tumor marker CK-19 along with histological assessment. Treatment of lung cancer with either free or nanoparticles of cisplatin alone demonstrated significant suppression in the expression of inflammatory, anti-apoptotic and tumor markers compared to rats with lung cancer. Moreover, vitamin-D3 supplementation with either cisplatin forms lead to a further decrease of all markers, markedly with cisplatin nanoparticles. The presentstudy shows the synergistic effect of cisplatin-nanoparticles combined with vitamin-D3 as a new therapy regimen against lung cancer. Further studies with larger sample sizes and longer duration are needed to confirm these results.

Lung cancer remains incurable; therefore, novel therapeutical approaches are ofgreat demand. This study was designed to investigate the effectiveness of cisplatin nanoparticles combined with vitamin-D3 on urethane-induced early lung cancer in rats and to clarify the underlying signaling mechanisms. Early lung cancer was induced in male Wistar rats by urethane. Rats were divided into six groups:I-control, II-cancer untreated, III-cancer + free cisplatin, IV-cancer + cisplatin nanoparticles, V-cancer + free cisplatin + vitamin-D3, VI-cancer + cisplatin nanoparticles + vitamin-D3. Inflammation, proliferation, and apoptosis were evaluated together with the levels of tumor marker CK-19 along with histological assessment. Treatment of lung cancer with either free or nanoparticles of cisplatin alone demonstrated significant suppression in the expression of inflammatory, anti-apoptotic and tumor markers compared to rats with lung cancer. Moreover, vitamin-D3 supplementation with either cisplatin forms lead to a further decrease of all markers, markedly with cisplatin nanoparticles. The presentstudy shows the synergistic effect of cisplatin-nanoparticles combined with vitamin-D3 as a new therapy regimen against lung cancer. Further studies with larger sample sizes and longer duration are needed to confirm these results.

Studying the cerebella of different animals is important to expand the knowledge about the cerebellum. Studying the camel cerebellum was neglected even though the recent research in the middle east and Asia. Therefore, the present study was designed to achieve a detailed description of the morphology and the cellular organization of the camel cerebellum. Because of the high importance of the calcium ions as a necessary moderator the current work also aimed to investigate the distribution of calcium binding proteins (CaBP) such as calbindin D-28K (CB), parvalbumin (PV) and calretinin (CR) in different cerebellar cells including the non-traditional neurons. The architecture of camel cerebellum, as different mammals, consists of the medulla and three layered-cortex. According to our observation the cells in the granular layer were not crowded and many spaces were observed. CB expression was the highest by Purkinje cells including their dendritic arborization. In addition to its expression by the inhibitory interneurons (basket, stellate and Golgi neurons), it is also expressed by the excitatory granule cells. PV was expressed by Purkinje cells, including their primary arborization, and by the molecular layer cells. CR immunoreactivity (-ir) was obvious in almost all cell layers with varying degrees, however a weak or any expression by the Purkinje cells. The molecular layer cells and the Golgi and the non traditional large neurons of the granular layer showed the strongest CR-ir. Granule neurons showed moderate immunoreactivity for CB and CR. In conclusion, the results of the current study achieved a complete map for the neurochemical organization of CaBP expression and distribution by different cells in the camel cerebellum.

Studying the cerebella of different animals is important to expand the knowledge about the cerebellum. Studying the camel cerebellum was neglected even though the recent research in the middle east and Asia. Therefore, the present study was designed to achieve a detailed description of the morphology and the cellular organization of the camel cerebellum. Because of the high importance of the calcium ions as a necessary moderator the current work also aimed to investigate the distribution of calcium binding proteins (CaBP) such as calbindin D-28K (CB), parvalbumin (PV) and calretinin (CR) in different cerebellar cells including the non-traditional neurons. The architecture of camel cerebellum, as different mammals, consists of the medulla and three layered-cortex. According to our observation the cells in the granular layer were not crowded and many spaces were observed. CB expression was the highest by Purkinje cells including their dendritic arborization. In addition to its expression by the inhibitory interneurons (basket, stellate and Golgi neurons), it is also expressed by the excitatory granule cells. PV was expressed by Purkinje cells, including their primary arborization, and by the molecular layer cells. CR immunoreactivity (-ir) was obvious in almost all cell layers with varying degrees, however a weak or any expression by the Purkinje cells. The molecular layer cells and the Golgi and the non traditional large neurons of the granular layer showed the strongest CR-ir. Granule neurons showed moderate immunoreactivity for CB and CR. In conclusion, the results of the current study achieved a complete map for the neurochemical organization of CaBP expression and distribution by different cells in the camel cerebellum.

Studying the cerebella of different animals is important to expand the knowledge about the cerebellum. Studying the camel cerebellum was neglected even though the recent research in the middle east and Asia. Therefore, the present study was designed to achieve a detailed description of the morphology and the cellular organization of the camel cerebellum. Because of the high importance of the calcium ions as a necessary moderator the current work also aimed to investigate the distribution of calcium binding proteins (CaBP) such as calbindin D-28K (CB), parvalbumin (PV) and calretinin (CR) in different cerebellar cells including the non-traditional neurons. The architecture of camel cerebellum, as different mammals, consists of the medulla and three layered-cortex. According to our observation the cells in the granular layer were not crowded and many spaces were observed. CB expression was the highest by Purkinje cells including their dendritic arborization. In addition to its expression by the inhibitory interneurons (basket, stellate and Golgi neurons), it is also expressed by the excitatory granule cells. PV was expressed by Purkinje cells, including their primary arborization, and by the molecular layer cells. CR immunoreactivity (-ir) was obvious in almost all cell layers with varying degrees, however a weak or any expression by the Purkinje cells. The molecular layer cells and the Golgi and the non traditional large neurons of the granular layer showed the strongest CR-ir. Granule neurons showed moderate immunoreactivity for CB and CR. In conclusion, the results of the current study achieved a complete map for the neurochemical organization of CaBP expression and distribution by different cells in the camel cerebellum.

Microglia are constantly surveying their microenvironment and rapidly react toimpairments by changing their morphology, migrating toward stimuli and adopting geneexpression profiles characterizing their activated state. The increased expression of theM2-like markerMannose receptor 1(Mrc1), which is also referred to as CD206, inmicroglia has been reported after M2-like activationin vitroandin vivo.Mrc1is a 175-kDa transmembrane pattern recognition receptor which binds a variety of carbohydratesand is involved in the pinocytosis and the phagocytosis of immune cells, includingmicroglia, and thought to contribute to a neuroprotective microglial phenotype. Herewe analyzed the effects of TGFβsignaling onMrc1expression in microgliain vivoandin vitro. Using C57BL/6 wild type andCx3cr1CreERT2:R26-YFP:Tgfbr2fl/flmice-derivedmicroglia, we show that the silencing of TGFβsignaling results in the upregulationofMrc1, whereas recombinant TGFβ1 induced the delayed downregulation ofMrc1.Furthermore, chromatin immunoprecipitation experiments provided evidence thatMrc1is not a direct Smad2/Smad4 target gene in microglia. Altogether our data indicatethat the changes inMrc1expression after the activation or the silencing of microglialTGFβsignaling are likely to be mediated by modifications of the secondary intracellularsignaling events influenced by TGFβsignaling.

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