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Topic Review
Multi-Scale Imaging of the Dynamic Organization of Chromatin
Chromatin is regarded as a heterogeneous and dynamic structure occupying a non-random position within the cell nucleus, where it plays a key role in regulating various functions of the genome. In addition to challenging early assumptions of chromatin being regular and static, high spatiotemporal resolution imaging made it possible to visualize and characterize different chromatin structures such as clutches, domains and compartments. More specifically, super-resolution microscopy facilitates the study of different cellular processes at a nucleosome scale, providing a multi-scale view of chromatin behavior within the nucleus in different environments.
  • 298
  • 28 Nov 2023
Topic Review
Presynaptic Precursor Vesicle Biogenesis
The faithful formation and, consequently, function of a synapse requires continuous and tightly controlled delivery of synaptic material. At the presynapse, a variety of proteins with unequal molecular properties are indispensable to compose and control the molecular machinery concerting neurotransmitter release through synaptic vesicle fusion with the presynaptic membrane. As presynaptic proteins are produced mainly in the neuronal soma, they are obliged to traffic along microtubules through the axon to reach the consuming presynapse. 
  • 297
  • 09 Oct 2023
Topic Review
Growth and Division of Peroxisomes
The identification and molecular characterization of peroxisomal division proteins, microscopic observations and the analysis of patient fibroblasts have contributed to a refined growth and division model for peroxisomes. In mammalian cells, peroxisome formation by membrane growth and division represents a multi-step process involving the remodelling of the peroxisomal membrane, membrane expansion/elongation (growth), membrane constriction and final scission (fission). Peroxisomal growth and division results in the formation of new peroxisomes (multiplication/proliferation), which import matrix and membrane proteins to maintain functionality.
  • 296
  • 23 Jun 2022
Topic Review
Mir-137
In molecular biology, miR-137 (or microRNA-137) is a short non-coding RNA molecule that functions to regulate the expression levels of other genes by various mechanisms. miR-137 is located on human chromosome 1p22 and has been implicated to act as a tumor suppressor in several cancer types including colorectal cancer, squamous cell carcinoma and melanoma via cell cycle control. Recent genome-wide association studies (GWAS) have provided evidence to suggest that single nucleotide polymorphisms in the vicinity of the MIR137 gene are statistically associated with schizophrenia and other psychiatric disorders. miR-137 is shown to regulate neural stem cell proliferation and differentiation in mouse embryonic stem cells, and neuronal maturation, including regulation of dendrite length, branch points, end points, and spine density in mouse adult hippocampal neuroprogenitor-derived and mouse fetal hippocampus neurons. Decreased spine density has also been observed in the dorsolateral cortex of patients with schizophrenia. miR-137 belongs to the miR-137 clan (a clan is group of two or more RNA families that have arisen from a single evolutionary origin, as derived from their related structure and function). The miR-137 clan contains two members: miR-137 and miR-234; the total number of RNA domains in the clan is 112.
  • 296
  • 01 Dec 2022
Topic Review
Mechanisms of Myofibroblast Formation
At least three local events are needed to generate mature α-SMA-positive, fully differentiated myofibroblasts: (i) biologically active TGF-β1; (ii) extracellular stress, arising from the mechanical properties of the ECM (particularly collagen) and EDA–FN/integrin interactions; and (iii) the precursory production of phenotypic modulators (EDA–FN, HA) following activation. Increasing evidence strongly supports the role of inflammatory cell interactions in promoting myofibroblast development. Regardless of the origin, the resultant myofibroblast cells share the same properties and signalling cascade events that led to their formation.
  • 296
  • 11 Aug 2023
Topic Review
Metastasis-Initiating Cells
Ovarian cancer is the deadliest gynecological malignancy with a high prevalence of transcoelomic metastasis. Metastasis is a multi-step process and only a small percentage of cancer cells, metastasis-initiating cells (MICs), have the capacity to finally establish metastatic lesions. These MICs maintain a certain level of stemness that allows them to differentiate into other cell types with distinct transcriptomic profiles and swiftly adapt to external stresses. Furthermore, they can coordinate with the microenvironment, through reciprocal interactions, to invade and establish metastases. Therefore, identifying, characterizing, and targeting MICs is a promising strategy to counter the spread of ovarian cancer. 
  • 296
  • 22 Dec 2023
Topic Review
Lysine-Specific Demethylase 1 in Cancers
Epigenetic mechanisms are known to play a key role in cancer progression. Specifically, histone methylation involves reversible post-translational modification of histones that govern chromatin structure remodelling, genomic imprinting, gene expression, DNA damage repair, and meiotic crossover recombination, among other chromatin-based activities. Demethylases are enzymes that catalyse the demethylation of their substrate using a flavin adenine dinucleotide-dependent amine oxidation process. Lysine-specific demethylase 1 (LSD1) and its homolog, lysine-specific demethylase 2 (LSD2), are overexpressed in a variety of human cancer types and, thus, regulate tumour progression.
  • 295
  • 06 Apr 2022
Topic Review
The Functions of NRF2 in Carcinogenesis and Cancer
The transcription factor nuclear factor erythroid 2-related factor 2 (NRF2)-KEAP1 system is the master regulator of cellular redox and metabolic homeostasis. NRF2 has Janus-like roles in carcinogenesis and cancer development. Short-term NRF2 activation suppresses tissue injury, inflammation, and cancer initiation.
  • 294
  • 19 May 2023
Topic Review
Endothelial Senescence on Angiogenesis in Alzheimer’s Disease
Endothelial cells are constantly exposed to environmental stress factors that, above a certain threshold, trigger cellular senescence and apoptosis. The altered vascular function affects new vessel formation and endothelial fitness, contributing to the progression of age-related diseases. 
  • 294
  • 26 Jul 2023
Topic Review
Soy Isoflavones in the Treatment of Prostate Cancer
A possible link between diet and cancer has long been considered, with growing interest in phytochemicals. Soy isoflavones have been associated with a reduced risk of prostate cancer in Asian populations. Of the soy isoflavones, genistein and daidzein, in particular, have been studied, but recently, equol as a derivative has gained interest because it is more biologically potent. Different mechanisms of action have already been studied for the different isoflavones in multiple conditions, such as breast, gastrointestinal, and urogenital cancers. Many of these mechanisms of action could also be demonstrated in the prostate, both in vitro and in vivo. 
  • 292
  • 04 Dec 2023
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