[Sestrins are Gatekeepers in the Way from Stress to Aging and Disease].

Sestrins belong to a family of evolutionary conserved proteins which are found in the majority of animal species. While invertebrate genomes contain only one sestrin gene, mammalian and other vertebrate genomes comprise three highly homologous genes that encode Sestrin 1, 2 and 3 proteins (Sesn1, Sesn2 and Sesn3). Sestrins are activated in response to a variety of stimuli and trigger metabolic shifts promoting cell survival under stress conditions. Although cellular stress within an organism is often caused by external stimuli it can be induced by excess of cytokines, chemokines, reactive oxygen species which are produced during aberrant metabolic or immune processes and are involved in regulation of cell physiological states including cell death. Activation of sestrins facilitates cell adaptation to stress through stimulation of antioxidant response and autophagy through regulation of the signaling pathways mediated by AMPK and mTOR kinases. These activities are involved in protection of the organism during physical exercise and certain level of sestrins activity contributes to the development of age-related diseases. However, prolonged activation of sestrins under chronic stress may cause negative effects for the organism.

[Transcriptional inhibition of human papilloma virus in cervical carcinoma cells reactivates functions of the tumor suppressor p53].

Inactivation of tumor suppressor p53 accompanies the majority of malignant diseases in humans. Restoration of p53 functions in tumor results in death of cancer cells, which can be used in cancer therapy. In cervical cancer a product of E6 gene of the human papilloma virus promotes accelerated degradation of p53 in proteasome system. Therefore, one of the approaches to reactivation of p53 in cervical carcinoma cells could be the use of small molecules that inhibit functions of viral proteins. By using as a test system human cervical carcinoma cells (HeLa cell line bearing human papilloma virus type 18, HPV-18) with introduced reporter construct that expresses beta-galactosidase under control of a p53-dependent promoter we carried out screening of a library of small molecules to select small molecules capable of reactivating transcriptional activity of p53. We then characterized the effects of two most active compounds in cell lines that differ in the status of p53-dependent signaling pathway. Both of the compounds caused specific activation of p53 in the cell lines expressing HPV-18, to a lesser extent--HPV-16, and do not cause any effect in control p53 negative cells, or in the cells with undisrupted p53 pathway. Activation of p53 in cervical carcinoma cells was accompanied by the induction of the p53-dependent gene CDKN1 (p21), by inhibition of proliferation, and by the induction of apoptosis. Both of the compounds were capable of deep inhibition of transcription from the HPV genome, which apparently was the cause for p53 reactivation in response to decreased expression of the E6 protein. The observed low toxicity for normal cells allows considering these chemical compounds as prototypes for future anticancer drugs.

Sensing the Environment Through Sestrins: Implications for Cellular Metabolism.

Sestrins are a family of stress-responsive genes that have evolved to attenuate damage induced by stress caused to the cell. By virtue of their antioxidant activity, protein products of Sestrin genes prevent the accumulation of reactive oxygen species within the cell, thereby attenuating the detrimental effects of oxidative stress. In parallel, Sestrins participate in several signaling pathways that control the activity of the target of rapamycin protein kinase (TOR). TOR is a crucial sensor of intracellular and extracellular conditions that promotes cell growth and anabolism when nutrients and growth factors are abundant. In addition to reacting to stress-inducing insults, Sestrins also monitor the changes in the availability of nutrients, which allows them to serve as a key checkpoint for the TOR-regulated signaling pathways. In this review, we will discuss how Sestrins integrate signals from numerous stress- and nutrient-responsive signaling pathways to orchestrate cellular metabolism and support cell viability.

High constitutive level of NF-kappaB is crucial for viability of adenocarcinoma cells.

Most of cells exhibit low nuclear level of NF-kappaB. However, in some cell lines and tissues aberrantly activated NF-kappaB is playing an important role in cell motility, growth control and survival. Here we describe the result of decrease of constitutive NF-kappaB level in different adenocarcinoma cell lines. Treatment of mouse adenocarcinoma cell line CSML-100 with both synthetic (TPCK or PDTC) or natural (I(kappaB)-alpha) NF-kappaB inhibitors caused apoptotic death. Low doses of TPCK were harmless for CSML100 cells but sensitized them to TNF-induced apoptosis. Death of CSML100 cells in the presence of high concentration TPCK was not accompanied with significant changes in c-myc activity but strongly correlated with rapid decrease in p53 level. Thus, mutual behavior p53 and NF-kappaB represented a unique feature of TPCK-induced apoptosis in CSML-100 adenocarcinoma cells.

Virus-based reporter systems for monitoring transcriptional activity of hypoxia-inducible factor 1.

Being key regulator of oxygen homeostasis hypoxia-inducible factor 1 (HIF-1) plays significant roles in cancer progression as well as in cardiovascular diseases. The modulation of HIF-1alpha activity in vivo may represent a valuable therapeutic approach to these disorders. In order to monitor HIF-1 transcriptional activity, we have developed HIF-1alpha-responsive reporter constructs, in which lacZ gene expression is driven by minimal Hsp70 gene promoter or minimal immediate early promoter of cytomegalovirus (CMV) and a combination of hypoxia response elements from regulatory regions of PGK1, ENO1 and LDHA genes. For the efficient delivery to a wide variety of cell types we chose retroviral and lentiviral vectors as carriers of the reporter cassette. We demonstrate that the obtained reporter system i) has a high inducibility in response to treatments leading to HIF-1alpha activation, ii) shows upregulation in response to HIF-1 activation and downregulation following inhibition of HIF-1alpha expression by small interfering RNA, iii) follows the dynamics of endogenous HIF-1 target gene expression. The retrovirus- and lentivirus-based reporters can be used for high-throughput screening of HIF-1alpha modulators and for the study of crosstalk between HIF-1 and different related signal transduction pathways. Potential applications for the reporters are discussed.

[Retroviral reporter systems for the assessment of activity of stress-induced signal transduction pathways controlled by p53, HIF-1 and HSF-1 transcription factors].

Tumor suppressor p53, hypoxia-inducible factor 1 (HIF-1) and heat-shock factor 1 (HSF-1) are involved as the key transcription factors in cellular response to stress, induced by genetic material damage, hypoxia and heat shock respectively. The protein factors listed above also play an integral part in tumor development and progression. Thus, modulation of their activity may be important for treatment of cancer. In our work we obtained the reporter constructs for quantitative assessment of p53, HIF-1 and HSF-1 transcriptional activity on the basis of retro- and lentiviruses, allowing to obtain reporter cell lines almost out of any cell type. Induction of beta-galactosidase reporter gene expression, reflecting the activity of p53 and HIF-1 factors, depends on dose of treatment and also correlates with the induction of the endogenous target genes expression. The observed effect of activating treatments completely disappeared when the expression of p53 and HIF-1 genes was inhibited with specific siRNAs. The obtained reporter constructs may find the application in the screening of chemical and genetic (such as siRNA- and cDNA-libraries) modulators of transcriptional activity along with the investigation of components of signal transduction pathways modulating the transcriptional activity of those factors.

[Construction by using retrovirus vector of recombinant with synthetic bradykinin "gene" for investigations of human gene expression in mammalian cells]. / Konstruirovanie na osnove retrovirusnogo vektora rekombinanta s sinteticheskim "genom" bradikinina s tsel'iu izucheniia ékspressii genov cheloveka v kletkakh mlekopitaiushchikh.

The synthetic gene of bradykinin was built into the retrovirus vector pPS-3-neo under the guidance of LTR promotor, followed by pPS-3-neo (brd) vector transfection of strain 293 cells. The physiological activity of the expressed bradykinin was tested on cultured neonatal rat cardiomyocytes. The culture medium of strain 293 cells transferred by pPS-3-neo (brd) produces a positive chronotropic effect that is directly related to the time parameters of preparation of recombinant bradykinin, which are comparable with the curve of chronotropic effect of synthetic bradykinin at concentrations of 10(-17) to 10(-16) M. The control of bradykinin "gene" expression was due to the lack of chronotropic responses of cardiomyocytes to the kinin receptor blocker parmidine and the transfection of strain 293 cells with the retrovirus vector without bradykinin "gene".