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Topic Review
Cellular Senescence in the Kidneys
Cellular senescence is a state of cell cycle arrest induced by repetitive cell mitoses or different stresses, which is implicated in various physiological or pathological processes. The beneficial or adverse effects of senescent cells depend on their transitory or persistent state. Recently, an increase in senescent cell burden has been reported in renal disorders. Here, we will summarize the molecular mechanisms of senescence and their implication in renal diseases. We will also discuss the differential impacts of transient versus persistent status of cellular senescence.
  • 698
  • 25 Nov 2020
Topic Review
IPSC Preparation and Epigenetic Memory
The derivation of induced pluripotent stem cells (iPSCs) from somatic human cells by Takahashi and Yamanaka in 2007 represented a turning point for the field. For the first time, they provided isogenic pluripotent cells with the potential for personalized cell replacement therapies; no ethical issues would be created by using the somatic cells. This opportunity marks a decisive step compared to the generation of human embryonic stem cells (ESCs) arranged by Thomson et al. in 1998. The production of induced pluripotent stem cells (iPSCs) represent a breakthrough in regenerative medicine, providing new opportunities for understanding basic molecular mechanisms of human development and molecular aspects of degenerative diseases.
  • 698
  • 22 Jun 2021
Topic Review
RNA Modifications in Translation Fidelity
RNA modifications play an essential role in determining RNA fate. Recent studies have revealed the effects of such modifications on all steps of RNA metabolism. These modifications range from the addition of simple groups, such as methyl groups, to the addition of highly complex structures, such as sugars. Their consequences for translation fidelity are not always well documented. Unlike the well-known m6A modification, they are thought to have direct effects on either the folding of the molecule or the ability of tRNAs to bind their codons.
  • 698
  • 19 Nov 2021
Topic Review
Monoubiquitin Signaling in Genetic Diseases
Ubiquitination is a reversible post-translational modification that controls protein function and stability. Different types of ubiquitination were described including polyubiquitination, the attachment of multiple ubiquitin residues, or monoubiquitination, the attachment of a single ubiquitin molecule. While most of the studies have described the role of polyubiquitination, recent evidences show that monoubiquitination is a key regulator of different cellular processes, including vesicular trafficking and protein complex formation and degradation. Enzymes regulating monoubiquitination such as E2 conjugating enzymes, E3 ligases or ubiquitin hydrolases, are found altered in several genetic diseases, including Parkinson's disease or Noonan syndrome.
  • 698
  • 29 Oct 2020
Topic Review
JNK Pathway in CNS Pathologies
The c-Jun N-terminal kinase (JNK) signalling pathway is a conserved response to a wide range of internal and external cellular stress signals.
  • 698
  • 19 Apr 2021
Topic Review
Hypoxia in the Cell Cycle
The cell cycle is an important cellular process whereby the cell attempts to replicate its genome in an error-free manner.
  • 698
  • 01 Jul 2021
Topic Review
The origin cell of cancer
       Tumours may develop from stem cells as well as differentiated cells able to divide. Phenotypically, the two principal  types of cell of origin convert with the degree of genetic changes as the stem cell derived tumours stop earlier in the differentiation and the differentiated cells  gradually lose specific traits. However, the growth regulation of the cell of origin, which depends on its receptors conveying signals influencing proliferation, is essential in tumourigenesis since every cell division carries a small risk of mutation. Moreover, some normal cells have properties making them prone to develop into tumours as neuroendocrine cells which display low adherence as they occur spread by other cells, and also because they release signal substances affecting the vascular bed (for instance histamine).. Therefore, these cells may be the origin of tumours more malignant than apparent from their phenotype. Knowledge of the receptors of the cell of origin gives increased possibility to understand the tumourigenesis and also  improvement of prophylaxis and treatment of the tumours. Finally, spread of nearly normal tumour cells at an early phase gives a plausible explanation of quiescent tumor cell/dormant tumours.
  • 697
  • 30 Oct 2020
Topic Review
Mesenchymal Stem Cell Secretome
The use of mesenchymal stem cells (MSC) for the treatment of cutaneous wounds is currently of enormous interest. However, the broad translation of cell therapies into clinical use is hampered by their efficacy, safety, manufacturing and cost. MSCs release a broad repertoire of trophic factors and immunomodulatory cytokines, referred to as the MSC secretome, that has considerable potential for the treatment of cutaneous wounds as a cell-free therapy. In this review, we outline the current status of MSCs as a treatment for cutaneous wounds and introduce the potential of the MSC secretome as a cell-free alternative for wound repair. We discuss the challenges and provide insights and perspectives for the future development of the MSC secretome as well as identify its potential clinical translation into a therapeutic treatment.
  • 697
  • 21 Oct 2020
Topic Review
Autonomy in Stem Cell-Derived Embryoids
The experimental production of complex structures resembling mammalian embryos (e.g., blastoids, gastruloids) from pluripotent stem cells in vitro has become a booming research field. Since some of these embryoid models appear to reach a degree of complexity that may come close to viability, a broad discussion has set in with the aim to arrive at a consensus on the ethical implications with regard to acceptability of the use of this technology with human cells. The present text focuses on developmental autonomy of embryoids which is an aspect of great ethical relevance and must receive increased attention during the preparation of new legal regulations, but which has not been included yet in the recently issued ISSCR Guidelines.  
  • 697
  • 10 Nov 2021
Topic Review
The Importance of Organoids for One Health
One Health describes the importance of considering humans, animals, and the environment in health research. One Health and the 3R concept, i.e., the replacement, reduction, and refinement of animal experimentation, shape today’s research more and more. The development of organoids from many different organs and animals led to the development of highly sophisticated model systems trying to replace animal experiments. Organoids may be used for disease modelling in various ways elucidating the manifold host–pathogen interactions. 
  • 696
  • 28 Sep 2022
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