Mucositis is a serious disorder of the gastrointestinal tract that results from cancer chemotherapy. We investigated the protective effects of silymarin on epirubicin-induced mucosal barrier injury in CD-1 mice. Immunohistochemical activity of both pro-apoptotic Bax and anti-apoptotic Bcl-2 markers, together with p53, cyt-P450 expression and DNA damage analysis on stomach, small intestine and colon were evaluated. Our results indicated stronger expression for cyt P450 in all analyzed gastrointestinal tissues of Epi group, which demonstrate intense drug detoxification. Bax immunopositivity was intense in the absorptive enterocytes and lamina connective cells of the small intestine, surface epithelial cells of the stomach and also in the colonic epithelium and lamina concomitant with a decreased Bcl-2 expression in all analyzed tissues. Epirubicin-induced gastrointestinal damage was verified by a goblet cell count and morphology analysis on histopathological sections stained for mucins. In all analyzed tissues, Bax immunopositivity has been withdrawn by highest dose of silymarin concomitant with reversal of Bcl-2 intensity at a level comparable with control. p53 expression was found in all analyzed tissues and decreased by high dose of silymarin. Also, DNA internucleosomal fragmentation was observed in the Epi groups for all analyzed tissues was almost suppressed at 100 mg/kg Sy co-treatment. Histological aspect and goblet cell count were restored at a highest dose of Sy for both small and large intestine. In conclusion, our findings suggest that silymarin may prevent cellular damage of epirubicin-induced toxicity and was effective in reducing the severity indicators of gastrointestinal mucositis in mice.
The use of biologically active compounds has become a realistic option for the treatment of malignant tumors due to their cost-effectiveness and safety. In this review, we aimed to highlight the main natural biocompounds that target leukemic cells, assessed by in vitro and in vivo experiments or clinical studies, in order to explore their therapeutic potential in the treatment of leukemia: acute myeloid leukemia (AML), chronic myeloid leukemia (CML), acute lymphocytic leukemia (ALL), and chronic lymphocytic leukemia (CLL). It provides a basis for researchers and hematologists in improving basic and clinical research on the development of new alternative therapies in the fight against leukemia, a harmful hematological cancer and the leading cause of death among patients.
Anemia, characterized by a decrease of the hemoglobin level in the blood and a reduction in carrying capacity of oxygen, is a major public health problem which affects people of all ages. The methods used to treat anemia are blood transfusion and oral administration of iron-based supplements, but these treatments are associated with a number of side effects, such as nausea, vomiting, constipation, and stomach pain, which limit its long-term use. In addition, oral iron supplements are poorly absorbed in the intestinal tract, due to overexpression of hepcidin, a peptide hormone that plays a central role in iron homeostasis. In this review, we conducted an analysis of the literature on biologically active compounds and plant extracts used in the treatment of various types of anemia. The purpose of this review is to provide up-to-date information on the use of these compounds and plant extracts, in order to explore their therapeutic potential. The advantage of using them is that they are available from natural resources and can be used as main, alternative, or adjuvant therapies in many diseases, such as various types of anemia.
Although doxorubicin (Dox) is an effective antitumor antibiotic in the anthracycline class, it often induces the undesirable side effect of cardiomyopathy leading to congestive heart failure, which limits its clinical use. The primary goal of this study is to evaluate a reliable translational method for Dox-induced cardiotoxicity (CTX) screening, aiming to identify a high-risk population and to discover new strategies to predict and investigate this phenomenon. Early identification of the presence of iron deposits and genetic and environmental triggers that predispose individuals to increased risk of Dox-induced CTX (e.g., overexpression of Toll-like receptor 4 (TLR4)) will enable the early implementation of countermeasure therapy, which will improve the patient’s chance of survival. Our cohort consisted of 25 consecutive patients with pathologically confirmed cancer undergoing Dox chemotherapy and 12 control patients. The following parameters were measured: serum TLR4 (baseline), serum transferrin (baseline and 6-week follow-up) and iron deposition (baseline and 6-week follow-up). The average number of gene expression units was 0.121 for TLR4 (range 0.051–0.801). We subsequently correlated serum TLR4 levels in our cohort with myocardial iron overload using the cardiac magnetic resonance (CMR) T2* technique, the ventricular function (% ejection fraction, %EF) and serum transferrin levels. There is a strong negative linear relationship between serum TLR4 and CMR T2* values (r = − 0.9106, ****P < 0.0001). There is also a linear correlation (either positive or negative) with EF and transferrin; no established relationship related to the sex of the patients was found. Patients with elevated serum TLR4 at baseline also exhibited an increase in serum transferrin levels and Dox-induced left ventricular dysfunction with a decreased EF (< 50%); this phenomenon was observed in 7 of 25 patients (28%) at the 6-week follow-up. There were no significant differences or correlations based on sex. We concluded that there is a direct relationship between Dox-induced CTX (indicated by elevated serum TLR4) and the times (ms) for T2* (decreases in which correspond to immediate and rapid iron overload).
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