Megha Verma scite author profile

IntroductionThe corneal stroma is being increasingly recognized as a repository for stem cells. Like the limbal and endothelial niches, stromal stem cells often reside in the peripheral cornea and limbus. These peripheral and limbal corneal stromal cells (PLCSCs) are known to produce mesenchymal stem cells in vitro. Recently, a common corneal stromal and epithelial progenitor was hinted at. This study aims to examine the stem cell potential of corneal stromal cells and to investigate their epithelial transdifferentiation ability.MethodsPLCSCs were grown in traditional Dulbecco modified Eagle medium (DMEM)-based keratocyte culture medium and an M199-based medium and analyzed for a profile of cell-surface markers by using flow cytometry and differentiated into mesenchymal phenotypes analyzed with quantitative polymerase chain reaction (qPCR) and histologic staining. PLCSCs in M199 were subsequently divided into subpopulations based on CD34 and CD105 expression by using fluorescence- activated cell sorting (FACS). Subpopulations were characterized by marker profile and mesenchymal differentiation ability. Both whole PLCSCs and subpopulations were also cultured for epithelial transdifferentiation.ResultsCells cultured in M199 demonstrated a more stem-like cell-surface marker profile, and the keratocyte marker CD34 was retained for several passages but absent in cells cultured in DMEM. Cells cultured in M199 also exhibited a greater mesenchymal differentiation potential, compared with DMEM. PLCSCs could be divided into CD34+CD105+, CD34-CD105+, and CD34-CD105- subpopulations, of which CD34+CD105+ cells were the most stemlike with regard to marker expression and mesenchymal differentiation potential. Subpopulations of PLCSCs exhibited differing abilities to transdifferentiate into epithelial phenotypes. Cells that were initially CD34+CD105+ showed the greatest differentiation potential, producing CK3+ and CK19+ cells, and expressed a range of both epithelial progenitor (HES1, FRZB1, DCT, SOD2, ABCG2, CDH1, KRT19) and terminally differentiated (DSG3, KRT3, KRT12, KRT24) genes.ConclusionsCulture medium has a significant effect on the phenotype and differentiation capacity of PLCSCs. The stroma contains a heterogeneous cell population in which we have identified CD34+ cells as a stem cell population with a capacity for mesenchymal and epithelial differentiation.

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Mesenchymal stem cell‐conditioned media: A novel alternative of stem cell therapy for quality wound healing

Joseph

Baiju

Bhat

et al. 2020

Journal Cellular Physiology

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Mesenchymal stem cells‐conditioned media (MSCs‐CM) contains several growth factors and cytokines, thus may be used as a better alternative to stem cell therapy, which needs to be elucidated. The present study was conducted to evaluate the therapeutic potential of caprine, canine, and guinea pig bone marrow‐derived MSCs‐CM in excision wound healing in a guinea pig model. MSCs were obtained from bone marrow, expanded ex vivo and characterized as per ISCT criteria. CM was collected assayed by western blot to ascertain the presence of important secretory biomolecules. Quantitative estimation by enzyme‐linked immunosorbent assay was done for a vascular epidermal growth factor (VEGF) and interleukin‐6 (IL‐6) in caprine MSCs‐CM and optimum time for collection of CM was decided as 72 hr. CM from all the species was lyophilized by freeze‐drying method. Full‐thickness (2 × 2 cm2) excision skin wounds were created in guinea pigs (six animals in each group) and respective lyophilized CM mixed with laminin gel was applied topically at weekly interval. On Day 28, histopathological examinations of healed skin were done by hemotoxylin and eosin staining. MSCs were found to secrete important growth factors and cytokines (i.e., VEGF, transforming growth factor‐β1, fibroblast growth factor‐2, insulin‐like growth factor‐1, stem cell factor, and IL‐6) as demonstrated by immunohistochemistry and western blot assay. It was found that allogenic and xenogenic application of CM significantly improved quality wound healing with minimal scar formation. Thus, MSCs‐CM can be used allogenically as well as xenogenically for quality wound healing.

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Modulatory effect of betaine on expression dynamics of HSPs during heat stress acclimation in goat ( Capra hircus )

Dangi

Chouhan

et al. 2016

Gene

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An allogenic therapeutic strategy for canine spinal cord injury using mesenchymal stem cells

Bhat

Sivanarayanan

Somal

et al. 2018

Journal Cellular Physiology

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This study was conducted to characterize canine bone marrow-derived mesenchymal stem cells (BMSCs); in vivo tracking in mice, and therapeutic evaluation in canine clinical paraplegia cases. Canine BMSCs were isolated, cultured, and characterized in vitro as per International Society for Cellular Therapy criteria, and successfully differentiated to chondrogenic, osteogenic, and adipogenic lineages. To demonstrate the homing property, the pGL4.51 vector that contained luciferase reporter gene was used to transfect BMSCs. Successfully transfected cells were injected around the skin wound in mice and in vivo imaging was done at 6, 12 and 24 hr post MSCs delivery. In vivo imaging revealed that transfected BMSCs migrated and concentrated predominantly toward the center of the wound. BMSCs were further evaluated for allogenic therapeutic potential in 44 clinical cases of spinal cord injuries (SCI) and compared with conventional therapy (control). Therapeutic potential as evaluated by different body reflexes and recovery score depicted significantly better results in stem cell-treated group compared to control group. In conclusion, allogenic canine BMSCs can serve as potent therapeutic candidate in cell-based therapies, especially for diseases like SCI, where the conventional medication is not so promising.

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Impact of l-carnitine on lipid content and post thaw survivability of buffalo embryos produced in vitro

et al. 2018

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Effects of developmental lead exposure on the hippocampal methylome: Influences of sex and timing and level of exposure

Singh

Wang

et al. 2018

Toxicology Letters

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Developmental lead (Pb) exposure results in persistent cognitive/behavioral impairments as well as an elevated risk for developing a variety of diseases in later life. Environmental exposures during development can result in a variety of epigenetic changes, including alterations in DNA methylation, that can influence gene expression patterns and affect the function and development of the nervous system. The present promoter-based methylation microarray profiling study explored the extent to which developmental Pb exposure may modify the methylome of a brain region, hippocampus, known to be sensitive to the effects of Pb exposure. Male and female Long Evans rats were exposed to 0 ppm, 150 ppm, 375 ppm, or 750 ppm Pb through perinatal exposures (gestation through lactation), early postnatal exposures (birth through weaning), or long-term postnatal exposures (birth through postnatal day 55). Results showed a significant contribution of sex to the hippocampal methylome and effects of Pb exposure level, with non-linear dose response effects on methylation. Surprisingly, the developmental period of exposure contributed only a small amount of variance to the overall data and gene ontology (GO) analysis revealed the largest number of overrepresented GO terms in the groups with the lowest level of exposure. The highest number of significant differentially methylated regions was found in females exposed to Pb at the lowest exposure level. Our data reinforce the significant effect that low level Pb exposure may have on gene-specific DNA methylation patterns in brain and that this occurs in a sex-dependent manner.

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Megha Verma

Anti-inflammatory activity of anatabine via inhibition of STAT3 phosphorylation

Animal tissue culture principles and applications

Characterization of corneal stromal stem cells with the potential for epithelial transdifferentiation

Mesenchymal stem cell‐conditioned media: A novel alternative of stem cell therapy for quality wound healing

Modulatory effect of betaine on expression dynamics of HSPs during heat stress acclimation in goat ( Capra hircus )

An allogenic therapeutic strategy for canine spinal cord injury using mesenchymal stem cells

Impact of l-carnitine on lipid content and post thaw survivability of buffalo embryos produced in vitro

Effects of developmental lead exposure on the hippocampal methylome: Influences of sex and timing and level of exposure

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