5-FU induces a decrease in the total cell number in cultures of smooth muscle cells. by Marcelo de Carvalho Filgueiras (408321)

“…We found an initial reduction of 20% at 0.01 mM up to a reduction of 70% in 10 mM of 5-FU. …”

R848 mediated RANTES, but not TNF-α production, is significantly decreased in TRAM^−/− iBMDMs. by Enda Shevlin (628477)

PDGF-BB-induced NR4A1 expression is decreased after treatment with the NF-κB inhibitor BAY11-7082. by Glenda Eger (636934)

The expression of 5-hmC was decreased in ESCC tissues and cell lines. by Xuejiao Shi (1684186)

Novel chromobox 2 inhibitory peptide decreases tumor progression by Lindsay W. Brubaker (15099942)

Ethanol intoxication combined with burn injury decreases NFAT, Tbx21, Jun and Fos expressions in T cells. by Xiaoling Li (129705)

Stimulation of Caco-2 cells with IFN-γ decreases claudin-4 expression. by Manigandan Lejeune (458492)

Blocking C5L2 decreased C5a-primed neutrophils expression of membrane-bound PR3 (mPR3). by Jian Hao (160736)

Rhox5 decreases UNC5C expression. by Mayumi Sugimoto (151133)

Inhibition of PKC or Rho protein kinase decreases Ad5 wild type replication <i>in vitro</i>. by Alice Liu (4814415)

U87MG glioma cells transduced with gal-3 shRNA demonstrate decreased tumor size and growth. by Rafael Yamashita Ikemori (698128)

“…The inoculation of U87MG gal-3 shRNA cells in the flank of nuce mice (n = 5) demonstrated a decrease in tumor size and growth compared to the U87MG scramble shRNA (n = 6). …”

A decrease in CD44+ cells in response to hypoxia. by Daniel V. Brown (3797809)

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

The blood plasma, kidney, and brain concentration levels (ng/ml) of GSK360A presented for 5 and 24 hours after GSK360A (30 mg/kg) was administered orally by gavage. by Jin Zhou (90734)

Ara-C treatment caused a decrease in microglia, NG2+ progenitors, oligodendrocytes, astrocytes and T cells in the spinal cord of SOD1^G93A mice. by Jean-Nicolas Audet (326107)

Suppression of the growth defects in flippase mutants by decreased synthesis of PI. by Kanako Yamagami (703555)