Cilostazol Modulates Autophagic Degradation of β-Amyloid Peptide via SIRT1-Coupled LKB1/AMPKα Signaling in Neuronal Cells - Fig 4 by So Youn Park (141327)

“…<p><b>A</b>. Significant enhancement of LC3-II levels by cilostazol (10 or 30 μM). …”

Image4_Adenosine A2A Receptor: A New Neuroprotective Target in Light-Induced Retinal Degeneration.TIF by Manuel Soliño (5410001)

“…It also significantly decreased GFAP and activated caspase-3 levels as measured by WB and preserved retinal function, as treated eyes showed significantly greater amplitudes of a- and b-waves and oscillatory potentials. qRT-PCR revealed that SCH 58261 significantly decreased the expression of tumor necrosis factor-α. …”

Image1_Adenosine A2A Receptor: A New Neuroprotective Target in Light-Induced Retinal Degeneration.TIF by Manuel Soliño (5410001)

“…It also significantly decreased GFAP and activated caspase-3 levels as measured by WB and preserved retinal function, as treated eyes showed significantly greater amplitudes of a- and b-waves and oscillatory potentials. qRT-PCR revealed that SCH 58261 significantly decreased the expression of tumor necrosis factor-α. …”

Image3_Adenosine A2A Receptor: A New Neuroprotective Target in Light-Induced Retinal Degeneration.TIF by Manuel Soliño (5410001)

“…It also significantly decreased GFAP and activated caspase-3 levels as measured by WB and preserved retinal function, as treated eyes showed significantly greater amplitudes of a- and b-waves and oscillatory potentials. qRT-PCR revealed that SCH 58261 significantly decreased the expression of tumor necrosis factor-α. …”

Image2_Adenosine A2A Receptor: A New Neuroprotective Target in Light-Induced Retinal Degeneration.TIF by Manuel Soliño (5410001)

“…It also significantly decreased GFAP and activated caspase-3 levels as measured by WB and preserved retinal function, as treated eyes showed significantly greater amplitudes of a- and b-waves and oscillatory potentials. qRT-PCR revealed that SCH 58261 significantly decreased the expression of tumor necrosis factor-α. …”

The intensity of WGA staining of the intestinal epithelium decreases along the length of the SI and can be reduced by N-acetyl-L-cysteine (NAC) treatment. by Yves A. Millet (638441)

Endogenous FGFR4 and IKKβ interact in DU145 cells, and FGFR4 activation decreases TNFα-induced signaling. by Kristine A. Drafahl (234437)

The fraction of pDC producing cytokines in response to PAMPs remained high throughout the first year of life, but the MFI for INF-α decreased. by Brian A. Reikie (135894)

<i>Brca2</i>^{<i>G25R/Ko</i>} mutant males have decreased fertility. by Suzanne A. Hartford (596319)

Losartan decreases vessel size but not effect microvessel density or pericyte recruitment in Pan02 tumors grown in <i>SPARC−/−</i> animals. by Shanna A. Arnold (183991)

Depletion of CD4 and CD8 T cells decreased or eliminated survival benefit following intratumoral ILV/mIL12 treatment. by Jardin A. Leleux (11785205)

SOCS3 decreases IL-10 secretion and increases IL-6 release in fetal type II cells exposed to mechanical stretch. by Michael A. Hokenson (391291)

Small decreases in Ca²⁺ influx following exposure to JZL184 in isolated rat islets and INS-1 cells. by Charles A. Berdan (849879)

Mitochondrial single-stranded DNA binding protein novel <i>de novo SSBP1</i> mutation in a child with single large-scale mtDNA deletion (SLSMD) clinically manifesting as Pearson, K... by Margaret A. Gustafson (2138056)

“…Size exclusion chromatography of p.E27K SSBP1 revealed it remains a stable tetramer. However, differential scanning fluorimetry demonstrated p.E27K SSBP1 relative to wild type had modestly decreased thermostability. …”

Adaptation following drug washout. by Alma Beatrix Stier (20903134)

Linear trajectories of IL-6. by Lucio Manenti (4503532)

“…Data values are indicated by circles the diameter of which is proportional to the inverse probability of treatment weight based on propensity score which was used in the analysis for comparison between treatment groups. The linear decreasing trend was statistically significant (P<0.001).…”

Loading rate—Failure stress relation diagram. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”

Specimen preparation proced. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”

Water content—Failure stress relation diagram. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”

The molar envelope. by Dongwei Li (1538815)

“…The final cumulative strain remains below 1%. 2) The failure stress of subgrade soil decreases exponentially with an increase in freeze-thaw cycles, dropping from 224.52 kPa to 196.76 kPa. 3) An increase in water content linearly decreases the failure stress of subgrade soil, ranging from 377.1 kPa to 151.5 kPa. 4) Confining pressure exhibits a linearly increasing relationship with the failure stress of subgrade soil, ranging from 151.6 kPa to 274.5 kPa. 5) The failure stress of subgrade soil demonstrates a linear increase with the loading rate, ranging from 200.46 kPa to 210.62 kPa. …”