Omics sciences and precision medicine in breast and ovarian cancer.

Background: Human breast carcinoma is a complex disease, affecting 1 in 8 women worldwide. The seriousness of the disease increases when the definite cause of the disease remains obscure, thus making prognosis challenging. Researchers are emphasizing on adapting more advanced and targeted therapeutic approaches to address the multifaceted impacts of the disease. Hence, modern multi-omics systems have gained popularity among clinicians, as they offer insights into the genomic, pharmacogenomic, metabolomic, and microbiomic factors, thus allowing researchers to develop targeted and personalized approaches for breast cancer prevention and early detection, and eventually improving patient outcomes. Aim: The primary focus of this study is to elucidate, through the integration of multi-omics research findings, the inherent molecular origins of diverse subtypes of breast cancer and to evaluate the effectiveness of these findings in reducing breast cancer-related mortalities. Methods: Thorough investigation was conducted by reviewing reputable and authoritative medical journals, e-books, and online databases dedicated to cancer research. The Mendelian inheritance in man database (OMIM) was used to scrutinize specific genes and their respective loci associated with the development of different types of breast cancer. Results: Our present research revealed the holistic picture of sundry molecular, genomic, pharmacogenomic, metabolomic, and microbiomic features of breast cancer. Such findings, like genetic alterations in highly penetrant genes, plus metabolomic and microbiomic signatures of breast cancer, unveil valuable insights and show great potential for multi-omics research in breast oncology. Conclusion: Further research in omics sciences pertaining to breast cancer are at the forefront of shaping precise treatment and bolstering patient survival.

From Myo-inositol to D-chiro-inositol molecular pathways.

OBJECTIVE: Inositol is a carbocyclic sugar polyalcohol. By epimerization of its hydroxyl groups, nine possible stereoisomers can be generated, two of major physiological and clinical relevance: myo-inositol and D-chiro-inositol. Myo-inositol and D-chiro-inositol are normally stored in kidney, brain and liver and are necessary for functions, such as signal transduction, metabolic flux, insulin signaling, regulation of ion-channel permeability, stress response and embryo development. In this narrative review, we summarize the mechanisms by which myo-inositol and D-chiro-inositol can be synthesized and absorbed and their possible role in the etiopathogenesis of neural tube defects. MATERIALS AND METHODS: We performed an online search in the PubMed database using the following keywords: "inositol", "D-chiro-inositol", "myo-inositol", "neural tube defects and inositol". RESULTS: Inositol requirements are partly met by dietary intake, while the rest is synthesized endogenously. Inositol deficiency may be involved in the pathogenesis of diseases, such as metabolic syndrome, spina bifida (a neural tube defect), polycystic ovary syndrome and diabetes. Supplementation of the two inositol stereoisomers, D-chiro-inositol and myo-inositol is important to prevent these conditions. CONCLUSIONS: Inositol is fundamental for signal transduction in the brain, kidneys, reproductive organs and other tissues in response to neurotransmitters, hormones and growth factors. Various genes are involved in inositol metabolism and associated pathways. Altered inositol concentrations are observed in several diseases. Analysis of the genes involved in inositol metabolism may provide important information for the clinical management of these conditions.

[Simvastatin and ischemia-reperfusion damage: its effects on apoptotic myocyte death and on the endothelial expression of nitric-oxide synthetase in an experimental model of the isolated rat heart]. / Simvastatina e danno da ischemia-riperfusione: effetti sulla morte apoptotica dei miociti e sull'espressione dell'ossido nitrico-sintetasi endoteliale nel modello sperimentale del cuore isolato di ratto.

Recent studies have suggested that simvastatin may exert endothelial-protective and anti-ischemic effects via nitric oxide (NO) mechanisms. The aim of this study was to evaluate, in isolated working rat hearts, the effect of acute simvastatin administration on endothelial and inducible NO-synthase (eNOS and iNOS) mRNA and on myocytic apoptosis after ischemia-reperfusion. We used isolated working rat hearts submitted to 15 min global, no-flow, normothermic ischemia and 180 min reperfusion. To detect myocytic apoptosis we used DNA agarose gel electrophoresis and Tunel technique; eNOS and iNOS expression were evaluated by multiplex reverse transcriptase-polymerase chain reaction; glyceraldehyde-3-phosphate dehydrogenase (G3PDH) was used as standard. The eNOS and iNOS mRNAs were expressed as G3PDH/eNOS and G3PDH/iNOS densitometric ratio (BioRad Gel Doc 1000). Hearts were divided into four groups: A) hearts excised and used as histological controls; B) untreated hearts submitted to ischemia and reperfusion; C) actinomicin D-treated (1.5 mg/kg) hearts, perfused with 25 microM simvastatin, subjected to ischemia and reperfusion; D) hearts treated with simvastatin 25 microM and submitted to ischemia and reperfusion. In Group B we evidenced a significant myocytic apoptotic damage, reduced in groups C and D. In Group B an increase in G3PDH/eNOS ratio vs Group A was detected; in Group D a reduction in G3PDH/eNOS ratio vs Group B occurred; no significant changes were observed between groups C and D. As for G3PDH/iNOS ratio, it was significantly increased in Group D with respect to groups A and B. Our data suggest that simvastatin in acute may modulate NO-synthase mRNA expression (induction of eNOS mRNA by means of post-transcriptional mechanisms and inhibition of iNOS postischemic overexpression) and reduce myocytic apoptosis.

Detection of apoptosis in peripheral blood cells of 31 subjects affected by Down syndrome before and after zinc therapy.

Thirty-one patients affected by Down syndrome (DS) were investigated to study the presence of apoptosis in peripheral blood cells in relation to the plasma levels of zinc. Twelve patients had undergone therapy with ZnSO4, while the remaining 19 were untreated. The presence of programmed cell death was evaluated by means of electron microscopy, in situ nick translation (NT), and agarose gel electrophoresis of DNA. These approaches evidenced the presence of apoptosis in peripheral blood cells of patients before therapy with ZnSO4, while after zinc supplementation there was a reduction in the number of apoptotic cells. These results suggest that the process of programmed cell death in peripheral blood cells of patients with Down syndrome is related to the plasma levels of zinc ion.

Is zinc deficiency a cause of subclinical hypothyroidism in Down syndrome?

In Down syndrome there is a high incidence of overt or subclinical hypothyroidism as well as some immunological defects, early thymic involution associated to low serum zinc levels. Zinc supplementation to the diet has been reported to transiently improve thymic function; moreover thymic function has been shown to be in relation with the pituitary-thyroid axis. The aim of this study was to evaluate if, in Down patients, zinc therapy could improve also thyroid function, by determining serum levels of total and free thyroid hormones and basal TSH levels. In 52 patients studied, we found a high incidence of subclinical hypothyroidism (30%); in 17 patients treated with zinc sulphate we showed a reduction of FT3. More significantly, we detected 9 patients with low zinc levels in which zinc supplementation improved thyroid function, thus reducing the incidence of subclinical hypothyroidism.