Behavior of Muscle-Derived Stem Cells on Silica Nanostructured Substrates

The aim of the present work was to evaluate the responses of rat muscle-derived stem cells (rMDSCs) to growth on silica nanostructured substrates (SN) with nanoscale topographic surfaces. SN of different sizes (SN-60, SN-150, SN-300, SN-500, and SN-700) were prepared using silica nanoparticles with sizes of 60–700 nm. The prepared SN showed roughness at the nanoscale level. The total number of adherent cells on SN increased with increasing nanoscale level and incubation time. The rMDSCs attached to SN-500 and SN-700 were extensively flattened, whereas those grown on SN-60, SN-150, and SN-300 were more rounded. The rank order of the cell length and height of attached rMDSCs at 5 d on different surfaces was SN-60 ≈ SN-150 >> SN-300 > SN-500 > SN-700 > glass. Compared with rMDSCs grown on SN-60, SN-150, or SN-300, those attached to SN-500 and SN-700 exhibited a distinct morphology with filopodial extensions and stronger expression of focal adhesion, integrin, and actin. An evaluation of the gene expression of adhered rMDSCs showed that rMDSCs grown on SN-300 exhibited a higher environmental stress response than those grown on glass or SN-700. Collectively, our data provide fundamental insight into the cellular response and gene expression of rMDSCs grown on nanostructured substrates.

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Nanoparticle-plasma Membrane Interactions: Thermodynamics, Toxicity and Cellular Response

Current Medicinal Chemistry ◽

10.2174/0929867325666181112090648 ◽

2020 ◽

Vol 27 (20) ◽

pp. 3330-3345

Author(s):

Ana G. Rodríguez-Hernández ◽

Rafael Vazquez-Duhalt ◽

Alejandro Huerta-Saquero

Keyword(s):

Gene Expression ◽

Immune Responses ◽

Cellular Response ◽

Cellular Level ◽

Membrane Interactions ◽

Daily Lives ◽

Cellular Physiology ◽

Associated Proteins ◽

First Contact ◽

Insight Into

Nanomaterials have become part of our daily lives, particularly nanoparticles contained in food, water, cosmetics, additives and textiles. Nanoparticles interact with organisms at the cellular level. The cell membrane is the first protective barrier against the potential toxic effect of nanoparticles. This first contact, including the interaction between the cell membranes -and associated proteins- and the nanoparticles is critically reviewed here. Nanoparticles, depending on their toxicity, can cause cellular physiology alterations, such as a disruption in cell signaling or changes in gene expression and they can trigger immune responses and even apoptosis. Additionally, the fundamental thermodynamics behind the nanoparticle-membrane and nanoparticle-proteins-membrane interactions are discussed. The analysis is intended to increase our insight into the mechanisms involved in these interactions. Finally, consequences are reviewed and discussed.

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Interferon α Has Varied Effects On CD34+ Cells From Patients With Polycythemia Vera

Blood ◽

10.1182/blood.v122.21.2840.2840 ◽

2013 ◽

Vol 122 (21) ◽

pp. 2840-2840

Author(s):

Min Lu ◽

Seungyeul Yoo ◽

Lijuan Xia ◽

Xiaoli Wang ◽

Yan Li ◽

...

Keyword(s):

Gene Expression ◽

Stem Cells ◽

Immune Response ◽

Colony Formation ◽

Cellular Response ◽

P Value ◽

Type I ◽

Signature Genes ◽

Cd34 Cells ◽

Ifn Γ

Abstract Prolonged therapy with pegylated interferon a (Peg-IFNα 2a) leads to hematological and complete molecular remissions in 70% and 17% of patients with polycythemia vera (PV) , respectively (Quintas-Cardama et al, Blood 2013). We have previously shown that PV CD34+ cells are more responsive to Peg-IFNα 2a than normal CD34+ cell. The type I IFN receptor 1 and 2 were shown to be expressed by a greater number of by PV CD34+ cells than normal(N) CD34+ cells (p=0.01 and p=0.002, respectively). The effects of Peg-IFNα 2a on PV hematopoietic stem cells(HSCs) was next evaluated by incubating PV CD34+ cell for 7 days with Peg-IFNα 2a (200ng/ml) followed by their transplantation into NSG mice. The degree of human cell chimerism following the transplantation of MPN CD 34+ cells was reduced by 50 -90% and the JAK2V617F allele burden by 40 -80%. Treatment of N CD34+ cells with Peg-IFNα 2a reduced donor chimerism by only 20%. We next examined the effects of increasing doses of Peg-IFNα 2a on CD34+ cells from 11 PV patients and 5 N controls. In 4 out of 10 PV cases the IC50 of Peg-IFNα 2a was less than 200ng/ml while in the remainder of cases the IC50 was greater. Low doses of IFNa were capable of eliminating JAK2V617F+ hematopoietic colonies in these IFNα sensitive patients while higher doses of IFNα were required to achieve the same effect in the other patients. PV and N CD34+ cells were then profiled using Illumina Gene expression arrays. In total, 32 intensity data files were generated, each containing 47,231 features, corresponding to 12,388 unique genes. At p-value <0.05 386 genes were down-regulated in PV; these genes were enriched for biological processes related to immune response including the IFN-γ-mediated signaling pathway (p=0.0002), the response to IFN-gamma (p=0.004), and the cellular response to IFN-γ (p=0.0004). The 715 up-regulated genes in PV were enriched for pathways involving glycolysis (p=9.4×10-05), cellular response to stress (p=0.006), and catabolic processes. The gene expression patterns of CD34+ cells incubated with and without INFα were next analyzed. At pairwise t-test p-value <0.001, 315 genes were differentially expressed (223 up-regulated and 92 down-regulated by INFα). Up-regulated genes were enriched for INFα functions and immune response including: response to type I IFN (p=9.0×10-49), innate immune response (2.6×10-45), response to virus (7.5×10-40). Among the 223 up-regulated genes, half were previously known as IFN regulated genes (IRGs). The individual response (IR) of genes to IFN was then defined as: IRi=log (exp ressioni @IFN/exp ressioni@control) IR patterns were remarkably consistent within N samples while large inter-patient variations were observed within the PV samples. Significantly positive IRs were observed for 75 genes and negative IRs for 117 genes within PV as compared to N samples (p value<0.01). The 75 positively responsive genes to IFNa overlapped with 16 down-regulated PV signature genes (p=1.1×10-10) while the negatively responsive of genes overlapped with 41 up-regulated PV signature genes (p=2.2×10-24).These data indicate that the action of IFNa is associated with the alteration of the expression of specific PV signature genes. The varied inhibitory effect of Peg-IFNα 2a on PV colony formation was then correlated with the IR of individual genes. The IRs of OAS2 and RPS24 showed particularly high variance and were related to colony formation. OAS2 (2'-5'-oligoadenylate synthetase 2) is an INF-induced, dsRNA-activated antiviral enzyme which plays a critical role in cellular innate antiviral response but also influences apoptosis, cell growth, differentiation and gene regulation. The IR of this gene was directly related to the inhibitory actions of IFNa (p=0.0011). By contrast, the IR of RPS24 (40S ribosomal protein S24), was inversely correlated to the IFNα response (p=0.0038). Mutations in RPS24 are associated with Diamond-Blackfan anemia. The strong correlation between the IR of these 2 genes with the inhibitory effects of IFNα suggests that their response ratio might be useful as therapeutic biomarker. These data indicate that the IFNα receptor is up-regulated in PV CD34+ cells and that IFNα treatment eliminates PV stem cells and its sensitivity against individual patient PV HSC/HPC varies. The patterns of differentially expressed genes following IFNα treatment may prove useful in determining its mechanism of action and predicting IFNα patient response. Disclosures: No relevant conflicts of interest to declare.

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Single Cell Gene Expression Profiling of Adult Murine Colon Provides Novel Insight Into Both the Origin of Stem Cells and Their Supportive Cell Type

Gastroenterology ◽

10.1016/s0016-5085(11)60054-1 ◽

2011 ◽

Vol 140 (5) ◽

pp. S-13-S-14

Author(s):

Michael E. Rothenberg ◽

Tomer Kalisky ◽

Piero D. Dalerba ◽

Ysbrand Nusse ◽

Stephen Quake ◽

...

Keyword(s):

Gene Expression ◽

Stem Cells ◽

Single Cell ◽

Gene Expression Profiling ◽

Expression Profiling ◽

Cell Type ◽

Cell Gene Expression ◽

Cell Gene ◽

Murine Colon ◽

Insight Into

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Cell Cycle Related Stem Cell Gene Expression.

Blood ◽

10.1182/blood.v104.11.4155.4155 ◽

2004 ◽

Vol 104 (11) ◽

pp. 4155-4155

Author(s):

Gerri J. Dooner ◽

Gerald A. Colvin ◽

Mark S. Dooner ◽

Peter J. Quesenberry

Keyword(s):

Gene Expression ◽

Cell Cycle ◽

Stem Cells ◽

Stem Cell ◽

Rank Order ◽

Continuum Theory ◽

Surface Expression ◽

Stem Cell Regulation ◽

Cell Gene Expression ◽

Cell Gene

Abstract We have previously reported that marrow stem cells show changes in engraftment (Habibian, et al J Ex. Hem, 188:393–398, 1998), homing (Cerny et al., J Hematother Stem Cell Res11:913–922, 2002) and differentiation (Colvin et al., J Cell Phys199:20–31, 2004) phenotype as they transit a cytokine-driven cell cycle. mRNA and surface expression of adhesion proteins also change (Becker et al., Exp Hematol27:533–541, 1999). We have evaluated gene expression by Real-time PCR of murine lineage negative, Sca+ (Lin-Sca+) stem cells stimulated by Il-3, Il-6, Il-11 and Steel factor (at 0, 24 and 48h) and lineage negative Rhodamine low, Hoescht low (LRH) stem cells stimulated by TPO, Flt-3 and Steel at various points in cell cycle transit (0,32,40,48h). In Lin-Sca+ cells (4experiments, time 0) expression of the following genes in descending order was as follows: IKAROS, L-selectin, Pu-1, Gata-2, Pecam, Cd84, Rock-1, c-fms, FOG, Cxcr4, c-kit, Cd4. The following were either not expressed or expressed at very low levels: Il-11, Ccr4, Sdf-1, Gata-1, P-selectin and Vecam. A pattern of depressed gene expression in S-phase (24h) with subsequent recovery (48h) was seen with c-fms and c-kit. With LRH cells (2 experiments, time 0) approximate descending rank order of gene expression was Cd45r, Cd34, G-CSFR, Mac-1, GM-CSFR and Flt-3. Il7r was not detected. With cycle progression Cd34 and Sca-1 were markedly elevated while Mac-1 and c-mpl were decreased. The expression of GM-CSFR, G-CSFR, Cd45r and Cd4 showed variable fluctuation. Il-7r was negative throughout. These data show that primitive marrow stem cells express a wide variety of “hematopoietic genes”, that expression modulates with cell cycle transit and perhaps most importantly that observed changes in gene expression are reversible. This is consistent with the continuum theory of stem cell regulation.

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