Publications by authors named "Mamaeva D"

Article Synopsis
  • Inherited retinal diseases (IRDs) cause people to lose their vision slowly, and there are over 270 genes that can cause these problems.
  • One specific gene, RLBP1, leads to different eye disorders depending on changes in that gene, affecting proteins important for seeing.
  • Researchers created a method to treat these disorders using gene therapy, and they discovered a new form of the CRALBP protein that could help improve treatments in both humans and mice.
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Retinitis pigmentosa (RP) is the most common inherited retinal disease (IRD) and is characterized by photoreceptor degeneration and progressive vision loss. We report 4 patients presenting with RP from 3 unrelated families with variants in TBC1D32, which to date has never been associated with an IRD. To validate TBC1D32 as a putative RP causative gene, we combined Xenopus in vivo approaches and human induced pluripotent stem cell-derived (iPSC-derived) retinal models.

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Background: Human-induced pluripotent stem cell-derived retinal organoids are a valuable tool for disease modelling and therapeutic development. Many efforts have been made over the last decade to optimise protocols for the generation of organoids that correctly mimic the human retina. Most protocols use common media supplements; however, protocol-dependent variability impacts data interpretation.

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Article Synopsis
  • * RNA profiling revealed that after injury, these cells activate specific signaling pathways (STAT3 and ERK/MAPK) and drastically upregulate 510 genes while downregulating others related to cilia formation.
  • * The study suggests that the interaction between microglial cells and the Osmr/Oncostatin pathway influences the differentiation of ependymal cells towards astrocytes after spinal cord injuries.
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The ability to reprogram somatic cells into induced pluripotent stem cells (iPSCs) was developed in 2006 and represented a major breakthrough in stem cell research. A more recent milestone in biomedical research was reached in 2013 when the CRISPR/Cas9 system was used to edit the genome of mammalian cells. The coupling of both human (h)iPSCs and CRISPR/Cas9 technology offers great promise for cell therapy and regenerative medicine.

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Human-induced pluripotent stem cell (hiPSC)-derived retinal pigment epithelium (RPE) is a powerful tool for pathophysiological studies and preclinical therapeutic screening, as well as a source for clinical cell transplantation. Thus, it must be validated for maturity and functionality to ensure correct data readouts and clinical safety. Previous studies have validated hiPSC-derived RPE as morphologically characteristic of the tissue in the human eye.

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A popliteal artery aneurysm is a rare disease and therefore it seems currently important to investigate peculiarities of surgical treatment of this pathology. Our study included a total of 60 patients (62 limbs) operated on for popliteal artery aneurysms with various complications. In order to assess the obtained findings the patients were subdivided into 3 groups depending on emergency of rendering surgical care.

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Inherited retinal dystrophies (IRDs) are characterized by progressive photoreceptor degeneration and vision loss. Usher syndrome (USH) is a syndromic IRD characterized by retinitis pigmentosa (RP) and hearing loss. USH is clinically and genetically heterogeneous, and the most prevalent causative gene is .

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Article Synopsis
  • Anamniotes, rodents, and young humans have neural stem cells located in the ependymal zone (EZ) of the spinal cord, suggesting a potential source for tissue repair after injuries.
  • Research using RNA profiling, immunostaining, and fluorescent transgenic mice reveals a significant gene expression profile in the EZ, including 1,200 genes and 120 transcription factors.
  • The study found that the EZ maintains an embryonic-like pattern of spinal cord development gene expression, indicating that EZ cells in mice originate from embryonic roof and floor plates, with specific genes like Bmp6 and Gdf10 being highly expressed in the dorsal EZ.
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The proliferation and differentiation of neural stem cells are tightly controlled by intrinsic and extrinsic cues. Cell adhesion molecules are increasingly recognized as regulators of these processes. Here we report the expression of the olfactory cell adhesion molecule (OCAM/NCAM2/RNCAM) during mouse spinal cord development and in neural stem cells cultured as neurospheres.

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Background: The adult central nervous system (CNS) contains different populations of immature cells that could possibly be used to repair brain and spinal cord lesions. The diversity and the properties of these cells in the human adult CNS remain to be fully explored. We previously isolated Nestin+ Sox2+ neural multipotential cells from the adult human spinal cord using the neurosphere method (i.

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Kinetic parameters of Citrobacter freundii methionine γ-lyase were determined with substrates in γ-elimination reactions as well as the inhibition of the enzyme in the γ-elimination of L-methionine by amino acids with different structure. The data indicate an important contribution of the sulfur atom and methylene groups to the efficiency of binding of substrates and inhibitors. The rate constants of the enzyme-catalyzed exchange of C-α- and C-β-protons with deuterium were determined, as well as the kinetic isotope effect of the deuterium label in the C-α-position of inhibitors on the rate of exchange of their β-protons.

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Background: The dual specificity phosphatase cdc25C was the first human cdc25 family member found to be essential in the activation of cdk1/cyclin B1 that takes place at the entry into mitosis. Human cdc25C is phosphorylated on Proline-dependent SP and TP sites when it becomes active at mitosis and the prevalent model is that this phosphorylation/activation of cdc25C would be part of an amplification loop with cdk1/cyclin B1.

Methodology/principal Findings: Using highly specific antibodies directed against cdc25C phospho-epitopes, pT67 and pT130, we show here that these two phospho-forms of cdc25C represent distinct pools with differential localization during human mitosis.

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IGF-I and its receptor IGF-IR are seen as critical effectors of muscle hypertrophy, a notion recently questioned. Using MKR transgenic mice that express a dominant negative IGF-IR only in skeletal muscle, we have examined the role of the IGF-IR signaling in differentiation and repair of muscle fibers after damage-induced muscle regeneration. This process is impaired in MKR muscle, with incomplete regeneration, persistence of infiltrating cells and sustained expression of differentiation markers.

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Stem cells with the ability to differentiate in specialized cell types can be extracted from a wide array of adult tissues including skeletal muscle. Here we have analyzed a population of cells isolated from skeletal muscle on the basis of their poor adherence on uncoated or collagen-coated dishes that show multi-lineage differentiation in vitro. When analysed under proliferative conditions, these cells express stem cell surface markers Sca-1 (65%) and Bcrp-1 (80%) but also MyoD (15%), Neuronal beta III-tubulin (25%), GFAP (30%) or Nkx2.

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Akt1 and Akt2 are the major isoforms of Akt expressed in muscle cells and muscle tissue. We have performed siRNA silencing of Akt1 and Akt2 in C2 myoblasts to characterize their specific implication in muscle differentiation. Whereas silencing Akt2, and not Akt1, inhibited cell cycle exit and myoblast differentiation, Akt2 overexpression led to an increased proportion of differentiated myoblasts.

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It is shown for the first time for the Enterobacteriaceae family that a gene encoding L-methionine gamma-lyase (MGL) is present in the genome of Citrobacter freundii. Homogeneous enzyme has been purified from C. freundii cells and its N-terminal sequence has been determined.

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L-Methionine gamma-lyase (MGL) is a pyridoxal 5'-phosphate (PLP) dependent enzyme that catalyzes gamma-elimination of L-methionine. The crystal structure of MGL from Citrobacter freundii has been determined at 1.9 A resolution.

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Citrobacter freundii cells produce L-methionine gamma-lyase when grown on a medium containing L-methionine. The nucleotide sequence of the hybrid plasmid with a C. freundii EcoRI insert of about 3.

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The sigma(70) subunit of Escherichia coli RNA polymerase (RNAP) is a transcription initiation factor that can also be associated with RNAP during elongation. We provide biochemical evidence that sigma(70) induces a transcription pause at the lacUV5 promoter after RNAP has synthesized a 17-nucleotide transcript. The sigma(70)-dependent pausing requires an interaction between sigma(70) and a part of the lac repressor operator sequence resembling a promoter -10 consensus.

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