Morin Exerts Anti-Diabetic Effects in Human HepG2 Cells Via Down-Regulation of miR-29a.

Diabetes mellitus is a complex metabolic disease around the world that is characterized by hyperglycemia resulting from impaired insulin secretion, insulin action, or both. MicroRNA-29a is an important regulator of insulin signaling and gluconeogenesis pathways through IRS2, PI3K and PEPCK expressions which up regulates in Diabetes. Morin is a substantial bioflavonoid which has insulin mimetic effect, and interacting with nucleic acids and proteins. In this study HepG2 cells, were exposed to high glucose to induce diabetic condition. We have determined whether high glucose stimulation might promotes miR-29a expression level in HepG2 cells and subsequently evaluated the Morin treatment effects on this state. In HepG2 cells, high glucose increases miR-29a expression level and decreases its target genes, IRS2 and PI3K expression, and increases associated downstream gene in gluconeogenic pathway, PEPCK. Morin treatment down regulates miR-29a expression level and improves insulin signaling and glucose metabolism. To confirm the inhibitory effects of Morin on miR-29a, we have transfected cells with mimic and inhibitor-miR-29a. This study for the first time identifies that Morin improves diabetic condition through down regulation of the miR-29a level, and suggest that this new inhibitor of miR-29a may be a useful biomedicine to treat diabetes.

Phytochemicals, withaferin A and carnosol, overcome pancreatic cancer stem cells as c-Met inhibitors.

Receptor tyrosine kinases (RTKs) are pharmaceutically attractive targets due to their fundamental role in tumor formation. The hallmark of pancreatic cancer is its high mortality rate attributed to the existence of cancer stem cell (CSC) subpopulations which result in therapy resistance and recurrence. c-Met is a known pancreatic CSC marker that belongs to the family of RTKs. To surmount the hurdles related to ligand-independent c-Met activation, we aimed to elucidate the inhibitory mechanisms of withaferin A (WA) and carnosol (CA) as two hit phytochemicals against c-Met kinase domain. Both tested compounds attenuated HGF-mediated proliferation across various established c-Met+ cancer cell lines and altered cell cycle distribution accompanied by apoptosis induction. Scratch assay confirmed the anti-migratory activity of WA and CA in AsPC-1 cells. The blockade of HGF-driven cellular growth and motility was reflected by the suppression of c-Met phosphorylation and its downstream pro-survival pathway Akt. Further studies showed that the administration of WA and CA diminished the sphere-formation and clonogenic potential which was validated by down-regulation of pluripotency maintaining genes (oct-4 and nanog), demonstrating their potentiality to target pancreatic CSCs. As more than 60% of anti-cancer drugs are composed of natural product-derived inhibitors known as fourth generation inhibitors, our present data suggest that WA and CA may hold promise to eradicate CSCs in c-Met-dependent cancers.

Directed Differentiation of Dopamine-Secreting Cells from Nurr1/GPX1 Expressing Murine Embryonic Stem Cells Cultured on Matrigel-Coated PCL Scaffolds.

Parkinson's disease (PD) is a progressive neurological disorder characterized by a large number of motor and non-motor features and is known as the second most common neurodegenerative disorder after Alzheimer's disease. The hallmark pathology of PD is the damage and death of dopamine-producing neurons in the substantia-nigra of midbrain. Intrastriatal transplants of fetal mesencephalon derived DAergic neurons have provided proof-of-principle for the cell replacement strategy and have demonstrated reinnervation of the denervated striatum. However, ethical, technical, and practical limitations of deploying fetal DAergic neurons as the source for cell therapy in PD have ceased the spread of this procedure into clinical practice. Embryonic stem (ES) cells have emerged as a therapeutic alternative that can proliferate extensively and generate dopamine-producing neurons. To this extent and to surmount the obstacles related to embryonic neural cells, many investigations have focused on using pluripotent stem cells for the derivation of DAergic neurons. In the present study, a mouse embryonic stem (mES) R1 cell line was generated which could stably co-express Nurr1 (an essential transcription factor in DAergic neuron development) and GPX-1 (a neuroprotective enzyme against oxidative stress). The Nurr1/GPX-1-expressing ES cells (Nurr1/GPX-1-ES) were differentiated into DAergic-like cells via a three-dimensional culture environment consisting of Poly-ε-Caprolactone (PCL) nanofibrous scaffolds embedded by Matrigel (Mtg) in the presence of specific signaling molecules. DAergic neuron-specific genes were highly expressed in ES-derived DAergic neurons cultured and differentiated on PCL/Mtg scaffolds. Reverse-phase HPLC confirmed that the Nurr1/GPX-1-ES-cells differentiated on PCL/Mtg electrospun scaffolds could efficiently and exclusively secrete dopamine in response to stimulus. In conclusion, our results demonstrated that PCL/Matrigel nanofibrous scaffolds could efficiently support and promote the generation of functional DAergic-like cells from Nurr1/GPX-1-ES cells. The results of this study may have an impact on future tissue engineering for cell therapy of PD.

Tissue-Engineered Regeneration of Hemisected Spinal Cord Using Human Endometrial Stem Cells, Poly ε-Caprolactone Scaffolds, and Crocin as a Neuroprotective Agent.

Loss of motor and sensory function as a result of neuronal cell death and axonal degeneration are the hallmarks of spinal cord injury. To overcome the hurdles and achieve improved functional recovery multiple aspects, it must be taken into account. Tissue engineering approaches by coalescing biomaterials and stem cells offer a promising future for treating spinal cord injury. Here we investigated human endometrial stem cells (hEnSCs) as our cell source. Electrospun poly ε-caprolactone (PCL) scaffolds were used for hEnSC adhesion and growth. Scanning electron microscopy (SEM) confirmed the attachment and survival of stem cells on the PCL scaffolds. The scaffold-stem cell construct was transplanted into the hemisected spinal cords of adult male rats. Crocin, an ethanol-extractable component of Crocus sativus L., was administered to rats for 15 consecutive days post injury. Neurite outgrowth and axonal regeneration were investigated using immunohistochemical staining for neurofilament marker NF-H and luxol-fast blue (LFB) staining, respectively. TNF-α staining was performed to determine the inflammatory response in each group. Functional recovery was assessed via the Basso-Beattie-Bresnahan (BBB) scale. Results showed that PCL scaffolds seeded with hEnSCs restored the continuity of the damaged spinal cord and decreased cavity formation. Additionally, hEnSC-seeded scaffolds contributed to the functional recovery of the spinal cord. Hence, hEnSC-seeded PCL scaffolds may serve as promising transplants for spinal cord tissue engineering purposes. Furthermore, crocin had an augmenting effect on spinal cord regeneration and proved to exert neuroprotective effects on damaged neurons and may be further studied as a promising drug for spinal cord injury.

Lack of association of intron 3 16 bp polymorphism of TP53 with breast cancer among Iranian-Azeri patients.

BACKGROUND: p53 gene is a well-known tumor suppressor gene that has several polymorphisms in both its exons and introns. It has been suggested that intron 3 16 bp duplication polymorphism may affect the gene function resulting in reduction or suppression of p53 anti tumor activity. In most case control studies a duplicated allele has been noticeably more frequent in cases rather than controls but there are also conflicting results. The aim of this study was to assess the association of intron 3 16 bp duplication polymorphism of p53 with breast cancer risk among Iranian-Azeri population. We also analyzed the clinicopathological information of patients as an epidemiological description of breast cancer in the north-west of Iran. MATERIALS AND METHODS: This case-control study was performed on 221 breast cancer patients and 170 controls. Genomic DNA was extracted from peripheral blood samples and tumor tissues. p53 PIN3 genotype was determined using electrophoresis of PCR products on 8% non-denaturing polyacrylamide gels and silver staining. RESULTS: In the control and case groups, respectively, 62.9% and 61.1% had no 16 bp insertion (A1A1 genotype), 7.1% and 7.7% had insertion in both p53 alleles (A2A2) and 30% and 31.2% were heterozygous (A1A2). There was no significant difference between genotype frequencies as well as allelic frequencies in two case and control groups. CONCLUSIONS: According to the result of the present study, the intron 3 16 bp duplication polymorphism of p53 could not be assessed as a marker of risk factor for predisposition to breast cancer in Azeri population. However, a high frequency of A2 allele (22.1%) in our population suggested that intron 3 16 bp duplication polymorphism may be a valuable marker for study in other cancers with well designed large groups.

Overlapping region of p53/wrap53 transcripts: mutational analysis and sequence similarity with microRNA-4732-5p.

BACKGROUND: Although the majority of investigations concerned with TP53 and its protein have focused on coding regions, recently a set of studies highlighted significant roles of regulatory elements located in p53 mRNA, especially 5 ? UTR. The wrap53α transcript is one of those that acts as a natural antisense agent, forming RNA-RNA hybrids with p53 mRNA and protecting it from degradation. MATERIALS AND METHODS: In this study, we focused on the mutation status of exon 1α of the WRAP53 gene (according to exon 1 of p53) in 160 breast tumor tissue samples and conducted a bioinformatics search for probable miRNA binding site in the p53/wrap53 overlapping region. Mutations were detected, using single stranded conformation polymorphism (SSCP) and sequencing. We applied the miRBase database for prediction of miRNAs which target overlapping region of p53/wrap53 transcripts. RESULTS: Our results showed all samples to have wild type alleles in exon 1 of TP53 gene. We could detect a novel and unreported intronic mutation (IVS1+ +56, G>C) outside overlapping regions of p53/wrap53 genes in breast cancer tissues and also predict the presence of a binding site for miR-4732-5p in the 5' UTR of Wrap53 mRNA. CONCLUSIONS: From our findings we propose designing further studies focused on overexpression of miRNA-4732-5p and introducing different mutations in the overlapping region of wrap53 and p53 genes in order to study their effects on p53 and its δN isoform (δ40p53) expression. The results may provide new pieces in the p53 targeting puzzle for cancer therapy.