Perspectives on the nanocarriers with miRNAs for targeting melanoma stemness through epigenetic regulation

Several research reports delineated the significant role of miRNAs in cancer proliferation, and their modulatory role in cancer mitigation, and drug resistance. Melanoma cells have been acquiring stemness to several chemotherapeutic agents through drug efflux proteins, epigenetic modulation, and DNA repair. miRNAs could be applied as novel therapeutic modalities for treating several kinds of cancers to modulate these mechanisms involved in stemness. Nanocarriers to carry these tumor-targeting miRNAs to modulate stemness are a prominent strategy to overcome their low penetrability, minimal stability, and nonspecificity. We have searched several public databases such as PubMed, Medline, Google scholar, and NLM and obtained the information pertinent to the miRNA-based nanocarrier systems to target stemness through epigenetic modulation in melanomas. This review delineates that various miRNAs can modulate the stemness in melanomas by specific intricate epigenetic signaling, and other cell-based signaling mechanisms. Specific nanocarrier formulations with specific miRNAs are optimal methods to deliver these miRNAs in order to achieve significant entrapment efficiency, loading efficiency, and stability. Furthermore, the combinatorial regimen of FDA-approved chemotherapeutic molecules with tumor-targeting miRNAs and chemotherapy combined with nanocarriers can efficiently deliver the utmost therapeutic window by targeting tumor matrix, invasion, metastasis, and angiogenesis in melanomas. Substantial research should focus on the clinical application of this gene therapy in melanomas using these low immunogenic, highly degradable, and biocompatible combinatorial nanotherapeutic regimens.     

肝细胞癌组织miR-124-3p、miR-212-5p表达与PI3K/Akt信号通路和预后的关系研究

摘要 目的：探讨肝细胞癌组织中微小核糖核酸（miR）-124-3p、miR-212-5p表达与磷脂酰肌醇3-激酶（PI3K）/蛋白激酶B（Akt）信号通路和预后的关系。方法：选择2017年9月至2019年9月徐州医科大学附属医院肝胆外科收治的93例肝细胞癌患者,采用实时荧光定量聚合酶链反应（qRT-PCR）检测肝细胞癌组织中miR-124-3p、miR-212-5p、PI3K 信使RNA（mRNA）、Akt mRNA的表达。Pearson相关性分析miR-124-3p、miR-212-5p表达与PI3K/Akt信号通路相关mRNA表达的相关性。绘制Kaplan-Meier生存曲线,Log-Rank检验不同miR-124-3p、miR-212-5p表达肝细胞癌患者3年总生存率（OS）的差异。结果：肝细胞癌组织中miR-124-3p表达低于癌旁组织（P＜0.05）,miR-212-5p、PI3K mRNA、Akt mRNA表达高于癌旁组织（P＜0.05）。肝细胞癌组织中miR-124-3p表达与PI3K mRNA、Akt mRNA表达呈负相关（P＜0.05）,miR-212-5p表达与PI3K mRNA、Akt mRNA表达呈正相关（P＜0.05）。Ⅱa期、低分化患者肝细胞癌组织中miR-124-3p表达低于Ⅰa-Ⅰb期、中高分化患者（P＜0.05）,miR-212-5p表达高于Ⅰa-Ⅰb期、中高分化患者（P＜0.05）。随访期间死亡37例, miR-124-3p低表达组3年OS为42.55%,低于miR-124-3p高表达组的78.26%（P＜0.05）,miR-212-5p高表达组3年OS为50.00%,低于miR-212-5p低表达组的71.11%（P＜0.05）。结论：肝细胞癌组织中miR-124-3p表达下调,miR-212-5p表达上调,且与肝细胞癌PI3K/Akt信号通路激活,PI3K mRNA和Akt mRNA高表达,低分化,CNLC分期Ⅱa期以及低OS有关。     

宫颈癌组织miR-200b-5p、miR-424-5p表达与临床病理特征、PI3K/AKT/mTOR信号通路和预后的关系研究

摘要 目的：探讨宫颈癌组织微小核糖核酸（miRNA）-200b-5p、miR-424-5p表达与临床病理特征、磷脂酰肌醇3-激酶/蛋白激酶B/哺乳动物雷帕霉素靶蛋白（PI3K/AKT/mTOR）信号通路和预后的关系。方法：选取2016年7月～2019年6月西安市中心医院收治的123例宫颈癌患者,采用定量聚合酶链式反应（qPCR）检测癌组织与癌旁组织中miR-200b-5p、miR-424-5p、PI3K信使RNA（mRNA）、AKT mRNA、mTOR mRNA表达。分析miR-200b-5p、miR-424-5p表达与PI3K mRNA、AKT mRNA、mTOR mRNA表达的相关性及与临床病理特征的关系。采用K-M法绘制不同miR-200b-5p、miR-424-5p表达宫颈癌患者生存曲线。结果：与癌旁组织比较,宫颈癌组织中miR-200b-5p、miR-424-5p表达降低,PI3K mRNA、AKT mRNA、mTOR mRNA表达升高（P＜0.05）。Pearson相关性分析显示,宫颈癌组织中miR-200b-5p、miR-424-5p表达与PI3K mRNA、AKT mRNA、mTOR mRNA表达均呈负相关,PI3K mRNA、AKT mRNA、mTOR mRNA表达呈两两相关（P＜0.05）。miR-200b-5p、miR-424-5p表达与宫颈癌分化程度、国际妇产科联盟（FIGO）分期和淋巴结转移有关（P＜0.05）。随访3年,123例宫颈癌患者累积生存率为62.60%（77/123）。K-M生存曲线分析显示,miR-200b-5p、miR-424-5p高表达组累积生存率分别高于miR-200b-5p、miR-424-5p低表达组（P＜0.05）。结论：宫颈癌组织中miR-200b-5p、miR-424-5p低表达,与分化程度、FIGO分期、淋巴结转移、PI3K/AKT/mTOR信号通路和预后有关。     

Planar cell polarity regulators in asymmetric organogenesis during development and disease

The phenomenon of planar cell polarity is critically required for a myriad of morphogenetic processes in metazoan and is accurately controlled by several conserved modules. Six “core” proteins, including Frizzled, Flamingo (Celsr), Van Gogh (Vangl), Dishevelled, Prickle, and Diego (Ankrd6), are major components of the Wnt/planar cell polarity pathway. The Fat/Dchs protocadherins and the Scrib polarity complex also function to instruct cellular polarization. In vertebrates, all these pathways are essential for tissue and organ morphogenesis, such as neural tube closure, left–right symmetry breaking, heart and gut morphogenesis, lung and kidney branching, stereociliary bundle orientation, and proximal–distal limb elongation. Mutations in planar polarity genes are closely linked to various congenital diseases. Striking advances have been made in deciphering their contribution to the establishment of spatially oriented pattern in developing organs and the maintenance of tissue homeostasis. The challenge remains to clarify the complex interplay of different polarity pathways in organogenesis and the link of cell polarity to cell fate specification. Interdisciplinary approaches are also important to understand the roles of mechanical forces in coupling cellular polarization and differentiation. This review outlines current advances on planar polarity regulators in asymmetric organ formation, with the aim to identify questions that deserve further investigation.     

The C2 domain calcium-binding motif: structural and functional diversity.

The C2 domain is a Ca(2+)-binding motif of approximately 130 residues in length originally identified in the Ca(2+)-dependent isoforms of protein kinase C. Single and multiple copies of C2 domains have been identified in a growing number of eukaryotic signalling proteins that interact with cellular membranes and mediate a broad array of critical intracellular processes, including membrane trafficking, the generation of lipid-second messengers, activation of GTPases, and the control of protein phosphorylation. As a group, C2 domains display the remarkable property of binding a variety of different ligands and substrates, including Ca2+, phospholipids, inositol polyphosphates, and intracellular proteins. Expanding this functional diversity is the fact that not all proteins containing C2 domains are regulated by Ca2+, suggesting that some C2 domains may play a purely structural role or may have lost the ability to bind Ca2+. The present review summarizes the information currently available regarding the structure and function of the C2 domain and provides a novel sequence alignment of 65 C2 domain primary structures. This alignment predicts that C2 domains form two distinct topological folds, illustrated by the recent crystal structures of C2 domains from synaptotagmin 1 and phosphoinositide-specific phospholipase C-delta 1, respectively. The alignment highlights residues that may be critical to the C2 domain fold or required for Ca2+ binding and regulation.     

Treatment of HeLa cells with bacterial water extracts inhibits Shigella flexneri invasion

Abstract Pathogenesis mediated by Shigella flexneri requires invasion of the gastrointestinal epithelium. It has been previously shown that HeLa cells challenged with S. flexneri show alterations in their phosphotyrosine-containing protein profile. In this report, we demonstrated that bacterial water extracts (WE) abrogated the invasion of HeLa cells by S. flexneri in a dose-dependent manner. A proteinaceous component of S. flexneri was shown to be responsible for this inhibitory activity. Proteins encoded on the 140-MDa plasmid were not responsible for the observed inhibition. WE from other Gram-negative bacteria also inhibited Shigella invasion of HeLa cells. HeLa cells pretreated with WE showed changes in the profile and the intensity of phosphotyrosine-containing protein bands. These data were consistent with a surface protein component in WE which initiated aberrant host cell signaling at the membrane which may account for the inhibition of bacterial entry.     

Begging, food provisioning, and nestling competition in great tit broods infested with ectoparasites

Ectoparasites are a ubiquitous environmental component of breedingbirds, and it has repeatedly been shown that hematoph-agousectoparasites such as fleas and mites reduce the quality andnumber of offspring of bird hosts, thereby lowering the valueof a current brood. Selection acting on the hosts will favorphysiological and behavioral responses that will reduce theparasites' impact. However, the results of the few bird studiesthat addressed the question of whether parasitism leads to ahigher rate of food provisioning are equivocal, and the beggingresponse to infestation has rarely been quantified. A changein begging activity and parental rate of food provisioning couldbe predicted in either direction: parents could reduce theirinvestment in the brood in order to invest more in future broods,or they could increase their investment in order to compensatefor the parasites' effect on the current brood. Since the nestlingsare weakened by the ectoparasites they may beg less, but onthe other hand they may beg more in order to obtain more food.In this study we show experimentally that (1) hen fleas (Ceratophyllusgallinae) reduce the body mass and size of great tit (Parusmajor) nestlings, (2) nestlings of parasitized broods more thandouble their begging rate, (3) the male parents increase thefrequency of feeding trips by over 50%, (4) the females do notadjust feeding rate to the lowered nutritional state of nestlings,and (5) food competition among siblings of parasitized broodsis increased. Ultimately the difference in the parental feedingresponse may be understood as the result of a sex-related differencein the trade-off of i0vesting in current versus future broods.