Laser Printing of Gel Microdrops with Living Cells and Microorganisms

We report the results of experiments on laser printing (wavelength λ=1064 nm) with gel microdrops acting as carriers of living microbial and cellular objects. The dynamics of transport processes with the help of high-speed optical video was studied, which allows to determine characteristics of the formed gel jets and to optimize the operating mode of the laser. It is shown that laser pulses of 4 to 20 ns duration and energy E ≤ 20 μJ should be used to minimize the negative effect on living systems. The results can be used to optimize the technologies of cellular printing and laser engineering of microbial systems (LEMS). LEMS technology is used to isolate hard-cultivated and non-cultivated by classical methods of microorganisms that can act as producers of new biologically active substances and antibiotics. Keywords: laser printing, gel, microdrop, living cell, microbia

Poly(ADP-ribose)glycohydrolase is an upstream regulator of Ca2+ fluxes in oxidative cell death

Oxidative DNA damage to cells activates poly(ADP-ribose)polymerase-1 (PARP-1) and the poly(ADP-ribose) formed is rapidly degraded to ADP-ribose by poly(ADP-ribose)glycohydrolase (PARG). Here we show that PARP-1 and PARG control extracellular Ca2+ fluxes through melastatin-like transient receptor potential 2 channels (TRPM2) in a cell death signaling pathway. TRPM2 activation accounts for essentially the entire Ca2+ influx into the cytosol, activating caspases and causing the translocation of apoptosis inducing factor (AIF) from the inner mitochondrial membrane to the nucleus followed by cell death. Abrogation of PARP-1 or PARG function disrupts these signals and reduces cell death. ADP-ribose-loading of cells induces Ca2+ fluxes in the absence of oxidative damage, suggesting that ADP-ribose is the key metabolite of the PARP-1/PARG system regulating TRPM2. We conclude that PARP-1/PARG control a cell death signal pathway that operates between five different cell compartments and communicates via three types of chemical messengers: a nucleotide, a cation, and proteins

Synthesis and Characterization of New Potential Hypoxia-Sensitive Azo-thiacalix[4]arenes Derivatives

The subject of this article is new potential hypoxia-sensitive azo-thiacalix[4]arenes derivatives in the 1,3-alternate configuration. Previously, it was shown that azo derivatives of calix[4]arene in the cone conformation form complexes with rhodamine dyes. The present work is devoted to the synthesis of new azo derivatives using the thiacalix[4]arene platform. A new highly productive method for the synthesis of thiacalixarene with four anionic sulfonate azo fragments on the lower rim (compounds 2a–b) for further complexation with the most common cationic dyes is reported. The chemical structures of the products obtained were established based on 1H and 13C NMR, IR spectroscopy, MALDI TOF mass spectrometry, and elemental analysis

FUNCTIONAL ASSESSMENT OF RESPIRATORY DISORDERS IN CHILDREN WITH BRONCHOPULMONARY DYSPLASIA DURING FOLLOW-UP

Background. Capabilities of assessing functional condition of the respiratory system in young children, including patients with bronchopulmonary dysplasia, are extremely limited, as little children do not cooperate with doctors in the course of diagnostic procedures. Results of use of a modern instrumental diagnostic method in this group of patients is of doubtless interest. The study was aimed at tracking changes in functional condition of the respiratory system in children with bronchopulmonary dysplasia during follow-up. Methods. Quite breathing flowmetry during natural sleep. Results. The article presents the authors’ data obtained by means of analyzing external respiratory function in children with bronchopulmonary dysplasia using a modern method of quiet breathing flowmetry; it is also reasonable to use relative parameters of the external respiratory function as diagnostic criteria of bronchoobstructive syndrome at bronchopulmonary dysplasia and criteria of effectiveness of N-acetylcysteine mucolytic therapy. Conclusion. Quiet breathing flowmetry may be used to diagnose bronchoobstructive syndrome and assess effectiveness of the treatment thereof in children with bronchopulmonary dysplasia

Synergistic Effects of Mutations in Cytochrome P450cam Designed To Mimic CYP101D1

A close ortholog to the cytochrome P450cam (CYP101A1) that catalyzes the same hydroxylation of camphor to 5-exo hydroxycamphor is CYP101D1. There are potentially important differences in and around the active site that could contribute to subtle functional differences. Adjacent to the heme iron ligand, Cys357, is Leu358 in P450cam while this residue is Ala in CYP101D1. Leu358 plays a role in binding of the P450cam redox partner, putidaredoxin (Pdx). On the opposite side of the heme about 15 – 20 Å away Asp251 in P450cam plays a critical role in a proton relay network required for O(2) activation but forms strong ion pairs with Arg186 and Lys178. In CYP101D1 a Gly replaces Lys178. Thus, the local electrostatic environment and ion pairing is substantially different in CYP101D1. These sites have been systematically mutated in P450cam to the corresponding residues in CYP101D1 and the mutants analyzed by crystallography, kinetics, and UV/Vis spectroscopy. Individually the mutants have little effect on activity or structure but in combination there is a major drop in enzyme activity. This loss in activity is due the mutants being locked in the low-spin state which prevents electron transfer from the P450cam redox partner, Pdx. These studies illustrate the strong synergistic effects on well separated parts of the structure in controlling the equilibrium between the open (low-spin) and closed (high-spin) conformational states