The structures and temperature-dependent photoluminescence properties of the one-dimensional compounds [(TPA)(2)Au][Au(CN)(2)], 1, and (TPA)AuCl, 2, are reported. An extended linear chain with weak Au.Au interactions along the c-axis is evident in the structure of 1, and a helical chain with a pitch of 3.271 A is seen for 2. The intrachain Au...Au separation is 3.457(1) and 3.396(2) A in 1 and 2, respectively. As a result of this weak Au...Au interaction, the physical properties of these compounds are anisotropic. Scanning electron microscopy (SEM) studies indicate that single crystals of both compounds are noninsulating. Single crystals of 1 do not luminesce visibly, but grinding the crystals finely initiates a strong green emission under UV irradiation at room temperature. Further interesting optical properties include the dependence of the emission profile of the powder on the exciting wavelength and luminescence thermochromism. When excited at wavelengths < 360 nm, the powder exhibits a blue emission at 425 nm while excitation with longer wavelengths leads to a green emission near 500 nm. While the green emission dominates at ambient temperature, cooling to cryogenic temperatures leads to the dominance of the blue emission. Fibers of 2 are luminescent at 78 K with an emission band centered at 580 nm. Compound 1 crystallizes in the orthorhombic space group Cccm (No. 66), with Z = 2, a = 6.011(1) A, b = 23.877(6) A, c = 6.914(1) A, V = 992.3(3) A(3), and R = 0.0337. Compound 2 crystallizes in the trigonal space group R3 (No. 148), with Z = 18, a = 22.587(2) A, b = 22.587(2) A, c = 9.814(2) A, V = 4336 A(3), and R = 0.0283.
In this study, we elucidate signaling pathways induced by photodynamic therapy (PDT) with hypericin. We show that PDT rapidly activates JNK1 while irreversibly inhibiting ERK2 in several cancer cell lines. In HeLa cells, sustained PDT-induced JNK1 and p38 mitogen-activated protein kinase (
The structure of thallium dicyanoargentate(I) has been determined crystallographically. The crystal structure shows an Ag-Ag distance of 3.11 Å. This is the shortest Ag-Ag distance reported for any silver dicyanide salt whose crystal structure has been determined. Raman spectra of the compound show four nu(C)(-)(N) peaks that are well-resolved in the 10-80 K temperature range. This result agrees well with group theory analysis. Extended Hückel calculations using relativistic wave functions have been carried out for two models which describe the interactions between the Ag(CN)(2)(-) ions within the crystal structure of Tl[Ag(CN)(2)]. The results of these calculations indicate the formation of potential wells at short Ag-Ag distances. The data in this study suggest the significance of ligand-unsupported silver-silver interactions (argentophilicity) in Tl[Ag(CN)(2)]. Tl-Ag interactions are determined to be insignificant in the compound. Tl[Ag(CN)(2)] crystallizes in the monoclinic space group P2(1)/c (No. 14), with a = 7.798(1) Å, b = 14.685(3) Å, c = 8.566(2) Å, beta = 91.66(2) degrees, Z = 8, R = 0.0643, and R(w) = 0.0899.
Exposure of mammalian cells to solar ultraviolet (UV) radiation leads to the expression of several genes, and UV has been recognized as a major initiator and promoter of skin cancer. The component of the solar radiation that contributes most to human skin malignancy is UVB (280-320 nm) and, to a lesser extent, UVA (320-400 nm), whereas the high-energy UVC (100-280 nm) is absorbed by the earth's upper atmosphere. Sublethal doses of UVB produce strong induction of c-jun and c-fos transcripts in several cells including human primary keratinocytes. The present report confirms that this is also the case in the HaCaT cell line and shows that similar UVB doses are potent inducers of the JNK/SAPK family of mitogen-activated protein kinases but only weak activators of ERKs. Epidermal growth factor (EGF) caused rapid induction of both JNK- and ERK-signaling pathways, and the downmodulation of the EGF-signaling pathway by EGF pre-treatment inhibited the UVB-induced JNK1 activation. Prior UVB irradiation of the cells decreased the level of the ERK2 activation by a subsequent EGF treatment, but this sensitized the cells and allowed for the super-activation of JNK1 after a rechallenge with either UVB or EGF. The antioxidant N-acetylcysteine impaired the UVB- and EGF-induced activation of JNK1. Our data suggest the presence of shared signaling component(s) in the UVB- and EGF-induced cellular response pathways and imply that oxidative stress plays a significant role in the activation of JNK1 by UVB and EGF.
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