1,721,114 research outputs found
Retinoids, apoptosis and cancer
No full textRetinoids are a class of natural and synthetic vitamin A analogs
structurally related to all-trans-retinoic acid (ATRA). Natural retinoids are involved in the physiology of vision and as morphogenic agents during embryonic development; they are also known to play a major role in regulating growth and differentiation of a wide variety of normal and malignant cell types, and, indeed, they can in various ways inhibit cell proliferation, induce differentiation and cell death by apoptosis. The development of new active retinoids and the identification of two distinct families of retinoid receptors has led to an increased understanding of the cellular effects of activation of these receptors and of mechanisms involved in the retinoid-induced apoptosis. In this review a brief summary of cellular pathways relevant to programmed cell death is given together with therapeutic potentialities of retinoids having apoptotic activity. Structure-activity relationship studies concerning the importance of different stereochemistry at the C9 double bond of retinoids in conferring apoptotic activity will be described. It will be also described the preparation and the potent cytotoxic and apoptotic activity of a novel class of heterocycle-bridged arotinoids
Drug resistance and apoptosis in cancer treatment: development of new apoptosis-inducing agents active in drug resistant malignancies
No full textModulation of multidrug resistance (MDR) has been extensively studied in vitro and in vivo. However, several clinical trials have failed to show any important benefits in terms of response to chemotherapy or the length of survival using MDR reversing agents. This may be
due to the expression or co-expression of other drug resistance mechanisms in malignant cells. Several studies have shown that most, if not all, chemotherapeutic agents exert their anticancer
activity by inducing apoptosis; therefore, resistance to apoptosis may be a major factor limiting the effectiveness of anticancer therapy. In the last few years, effort has been made to understand the biochemical alterations of apoptotic pathways in cancer. Many of these alterations confer a multidrug resistant phenotype to malignant
cells. In this context, the new recently developed anticancer therapies based on drugs that modulate apoptosis may have importance for the treatment of tumors that are scarcely responsive to the conventional anticancer chemotherapy. In this review, we discuss the current knowledge about drug resistance, apoptosis and cancer and report the recently developed apoptosis modulating strategies that have potential therapeutic implications for the drug resistant tumors
Anticancer drugs targeting the apoptotic pathway
No full textChemotherapy is currently the most important medical modality of treatment of cancer. Several studies have shown that most, if not all, chemotherapeutic agents exert their anticancer activity by inducing apoptosis (programmed cell death). Although successful treatment of some malignancies has been achieved, most of solid tumors are scarcely responsive to chemotherapeutic agents. The progress made in the area of apoptosis has led to the development of several apoptosis stimulators compounds for the control of cancer. A number of compounds able to activate directly apoptosis by acting on molecules involved in the apoptotic pathway, such as TRAIL receptor, caspases and the Bcl-2 family of proteins have been recently developed. Most are still in the preclinical study, but some have already shown promising results. Other recently developed anticancer drugs induce indirectly apoptosis by acting on targets different from that of classic chemotherapeutic drugs. Here, we review the experimental and clinical results of several promising pro-apoptotic anti-cancer compounds
The multifaced role of stat3 in cancer and its implication for anticancer therapy
Full text linkSignal transducer and activator of transcription (STAT) 3 is one of the most complex regulators of transcription. Constitutive activation of STAT3 has been reported in many types of tumors and depends on mechanisms such as hyperactivation of receptors for pro-oncogenic cytokines and growth factors, loss of negative regulation, and excessive cytokine stimulation. In contrast, somatic STAT3 mutations are less frequent in cancer. Several oncogenic targets of STAT3 have been recently identified such as c-myc, c-Jun, PLK-1, Pim1/2, Bcl-2, VEGF, bFGF, and Cten, and inhibitors of STAT3 have been developed for cancer prevention and treatment. However, despite the oncogenic role of STAT3 having been widely demonstrated, an increasing amount of data indicate that STAT3 functions are multifaced and not easy to classify. In fact, the specific cellular role of STAT3 seems to be determined by the integration of multiple signals, by the oncogenic environment, and by the alternative splicing into two distinct isoforms, STAT3α and STAT3β. On the basis of these different conditions, STAT3 can act both as a potent tumor promoter or tumor suppressor factor. This implies that the therapies based on STAT3 modulators should be performed considering the pleiotropic functions of this transcription factor and tailored to the specific tumor type
Functional characterization and homology modeling of a novel monofunctional isoform of human FAD synthase.
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Development of Novel Experimental Models to Study Flavoproteome Alterations in Human Neuromuscular Diseases: The Effect of Rf Therapy
Full text linkInborn errors of Riboflavin (Rf) transport and metabolism have been recently related to severe human neuromuscular disorders, as resulting in profound alteration of human flavoproteome and, therefore, of cellular bioenergetics. This explains why the interest in studying the "flavin world", a topic which has not been intensively investigated before, has increased much over the last few years. This also prompts basic questions concerning how Rf transporters and FAD (flavin adenine dinucleotide) -forming enzymes work in humans, and how they can create a coordinated network ensuring the maintenance of intracellular flavoproteome. The concept of a coordinated cellular "flavin network", introduced long ago studying humans suffering for Multiple Acyl-CoA Dehydrogenase Deficiency (MADD), has been, later on, addressed in model organisms and more recently in cell models. In the frame of the underlying relevance of a correct supply of Rf in humans and of a better understanding of the molecular rationale of Rf therapy in patients, this review wants to deal with theories and existing experimental models in the aim to potentiate possible therapeutic interventions in Rf-related neuromuscular diseases
Synthesis and biological evaluation of some new 2-cinnamidobenzamides as potential antagonist of the HDM2-p53 protein-protein interactions
No full textHow Genetics Might Explain the Unusual Link Between Malaria and COVID-19
Full text linkSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-associated coronavirus disease 2019 (COVID-19) pandemic has been the subject of a large number of studies in recent times. Here, starting from the evidence that in Italy, the areas with the lowest number of COVID-19 cases were those with the highest incidence of malaria in the early 1900's, we explore possible inverse relationships between malaria and COVID-19. Indeed, some genetic variants, which have been demonstrated to give an advantage against malaria, can also play a role in the incidence and severity of SARS-CoV-2 infections (e.g., the ACE2 receptor). To verify this scientific hypothesis, we here use public data from whole-genome sequencing (WGS) experiments to extrapolate the genetic information of 46 world populations with matched COVID-19 data. In particular, we focus on 47 genes, including ACE2 and genes which have previously been reported to play a role in malaria. Only common variants (>5%) in at least 30% of the selected populations were considered, and, for this subset, we correlate the intra-population allele frequency with the COVID-19 data (cases/million inhabitants), eventually pinpointing meaningful variants in 6 genes. This study allows us to distinguish between positive and negative correlations, i.e., variants whose frequency significantly increases with increasing or decreasing COVID-19 cases. Finally, we discuss the possible molecular mechanisms associated with these variants and advance potential therapeutic options, which may help fight and/or prevent COVID-19
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