NO-Dependent Mechanisms of p53 Expression and Cell Death in Rat's Dorsal Root Ganglia after Sciatic-Nerve Transection.

Peripheral-nerve injury is a frequent cause of disability. Presently, no clinically effective neuroprotectors have been found. We have studied the NO-dependent expression of p53 in the neurons and glial cells of the dorsal root ganglia (DRG) of a rat's spinal cord, as well as the role of NO in the death of these cells under the conditions of axonal stress, using sciatic-nerve axotomy as a model.

Oligonucleotides-transformers for molecular biology and nanoengineering.

In the present review, numerous experimental and theoretical data describing the properties of non-canonical DNA structures (NSs) are analyzed. NSs (G-quadruplex, i-motif, hairpin, and triplex) play an important role in epigenetic processes (including the genetic variability of viruses), are prone to energetically low-cost conformational transformations and can very effectively be used in the design of nanoscale devices. Numerous experimental data have been analyzed in connection with the so-called oligonucleotides-transformers (nucleotide sequences that able to fold not only into one, but also into several NSs).

Expression of proteins involved in epigenetic regulation in human cutaneous melanoma and peritumoral skin.

Epigenetic processes play a critical role in melanoma development. However, little is known about proteins responsible for epigenetic transformations in melanoma cells. The processes in the peritumoral skin within the excision margin are almost unstudied.

Signal transduction in human cutaneous melanoma and target drugs.

Malignant melanoma is an extremely aggressive and metastatic cancer, highly resistant to conventional treatment modalities. Understanding of fundamental mechanisms responsible for its genesis and progression is critical for development of successful chemotherapeutic treatment. It is becoming clear that melanoma results from complex changes in multiple signaling pathways that control cell proliferation and ability to evade the cell death processes.

Involvement of Ca2+- and cyclic adenosine monophosphate-mediated signaling pathways in photodynamic injury of isolated crayfish neuron and satellite glial cells.

To investigate the mechanisms of oxidative injury of neurons and glia, we studied the photodynamic effect on isolated stretch receptor that consists of only two sensory neurons enwrapped by satellite glial cells. Photodynamic therapy (PDT), a potent inducer of oxidative stress, is a prospective method for destruction of brain tumors. PDT induced functional inactivation and necrosis of neurons, necrosis, apoptosis, and proliferation of glial cells.