Ocellar atavism in Coleoptera: plesiomorphy or apomorphy?

Advances in the understanding of cancer cell biology and response to drug treatment have benefited from new molecular technologies and methods for integrating information from multiple sources. The NCI-60, a panel of 60 diverse human cancer cell lines, has been used by the National Cancer Institute to screen >100,000 chemical compounds and natural product extracts for anticancer activity. The NCI-60 has also been profiled for mRNA and protein expression, mutational status, chromosomal aberrations, and DNA copy number, generating an unparalleled public resource for integrated chemogenomic studies. Recently, microRNAs have been shown to target particular sets of mRNAs, thereby preventing translation or accelerating mRNA turnover. To complement the existing NCI-60 data sets, we have measured expression levels of microRNAs in the NCI-60 and incorporated the resulting data into the CellMiner program package for integrative analysis.

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Angiotensin II AT ₁ Receptor Blockade Reverses Pathological Hypertrophy and Inflammation in Brain Microvessels of Spontaneously Hypertensive Rats

Ando

Zhou

Macova

et al. 2004

Stroke

163

154

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Background and Purpose-The spontaneously hypertensive rat (SHR) is vulnerable to brain ischemia and stress and exhibits a chronically stimulated brain angiotensin II system, cerebrovascular hypertrophy, and inflammation. Pretreatment with angiotensin II type 1 (AT 1 ) receptor antagonists protects from brain ischemia and from stress and prevents the development of stress-induced gastric ulcers in part by reducing inflammation in the gastric mucosa. We studied whether AT 1 receptor antagonists could exert antiinflammatory effects in the brain vasculature as a mechanism for their protective effects against ischemia. Methods-Ten-week-old SHR and normotensive Wistar-Kyoto male rats received the AT 1 receptor antagonist candesartan (0.3 mg/kg per day) or vehicle for 28 days via osmotic minipumps. We studied AT 1 receptors, intercellular adhesion molecule-1 (ICAM-1), endothelial nitric oxide synthase (eNOS), and number of macrophages by immunohistochemistry and Western blots. Results-We found increased endothelial AT 1 receptor expression of brain microvessels and middle cerebral artery of SHR. Brain AT 1 receptor inhibition reversed the pathological vascular hypertrophy, increased and normalized eNOS expression, and decreased ICAM-1 expression and the number of adherent and infiltrating macrophages in cerebral vessels of SHR. Conclusions-The antiinflammatory effects of AT 1 receptor antagonists may be an important mechanism in protecting against ischemia.

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Human umbilical cord mesenchymal stem cell derived exosomes encapsulated in functional peptide hydrogels promote cardiac repair

et al. 2019

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Long-term angiotensin II AT1 receptor inhibition produces adipose tissue hypotrophy accompanied by increased expression of adiponectin and PPARγ

Zórad

Dou

Benický

et al. 2006

European Journal of Pharmacology

119

120

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To clarify the mechanism of the effects of angiotensin II AT 1 receptor antagonists on adipose tissue, we treated 8 week-old male Wistar Kyoto rats with the angiotensin II AT 1 receptor antagonist Candesartan cilexetil (10 mg/kg/day) for 18 weeks. Candesartan cilexetil reduced body weight gain, decreased fat tissue mass due to hypotrophy of epididymal and retroperitoneal adipose tissue and decreased adipocyte size without changing the number of adipocytes. Candesartan cilexetil decreased serum leptin levels and epididymal leptin mRNA, increased serum adiponectin levels and epididymal adiponectin mRNA, decreased epididymal tumor-necrosis factor alpha (TNFα) mRNA, and increased fatty acid synthase mRNA. Considered free of peroxisome proliferator-activated receptor γ (PPARγ) agonist activity, Candesartan cilexetil increased epididymal expression of PPARγ mRNA. The effects of Candesartan cilexetil on adipokine production and release may be attributable to PPARγ activation and/or decrease in adipocyte cell size. In addition, Candesartan cilexetil treatment increased the expression of epididymal angiotensin II AT 2 receptor mRNA and protein and decreased the expression of renin receptor mRNA. These results suggest that Candesartan cilexetil influences lipid metabolism in adipose tissue by promoting adipose tissue rearrangement and modulating adipokine expression and release. These effects are probably consequences of local angiotensin II AT 1 receptor inhibition, angiotensin II AT 2 receptor stimulation, and perhaps additional angiotensin II -independent mechanisms. Our results indicate that the activity of local renin-angiotensin system plays an important role in adipose tissue metabolism The decrease in the pro-inflammatory cytokine TNFα and the increase in the anti-inflammatory adipokine adiponectin indicate that Candesartan cilexetil may exert significant anti-inflammatory properties.

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Angiotensin II AT₁ Receptor Blockade Abolishes Brain Microvascular Inflammation and Heat Shock Protein Responses in Hypertensive Rats

Zhou

Ando

Macova

et al. 2005

J Cereb Blood Flow Metab

107

108

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Endothelial dysfunction and inflammation enhance vulnerability to hypertensive brain damage. To explore the participation of Angiotensin II (Ang II) in the mechanism of vulnerability to cerebral ischemia during hypertension, we examined the expression of inflammatory factors and the heat shock protein (HSP) response in cerebral microvessels from spontaneously hypertensive rats and their normotensive controls, Wistar Kyoto rats. We treated animals with vehicle or the Ang II AT 1 receptor antagonist candesartan, 0.3 mg/kg/day, via subcutaneously implanted osmotic minipumps for 4 weeks. Spontaneously hypertensive rats expressed higher Angiotensin II AT 1 receptor protein and mRNA than normotensive controls. Candesartan decreased the macrophage infiltration and reversed the enhanced tumor necrosis factor-a and interleukin-1b mRNA and nuclear factor-jB in microvessels in hypertensive rats. The transcription of many HSP family genes, including HSP60, HSP70 and HSP90, and heat shock factor-1 was higher in hypertensive rats and was downregulated by AT 1 receptor blockade. Our results suggest a proinflammatory action of Ang II through AT 1 receptor stimulation in cerebral microvessels during hypertension, and very potent antiinflammatory effects of the Ang II AT 1 receptor antagonist. These compounds might be considered as potential therapeutic agents against ischemic and inflammatory diseases of the brain.

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Cytokine Signaling in Skeletal Muscle Wasting

Zhou

Liu

Liang

et al. 2016

Trends in Endocrinology & Metabolism

144

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Down-Regulation of Toll-Like Receptor 4 Gene Expression by Short Interfering RNA Attenuates Bone Cancer Pain in a Rat Model

Lan

Ping

et al. 2010

Mol Pain

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BackgroundThis study demonstrates a critical role in CNS innate immunity of the microglial Toll-like receptor 4 (TLR4) in the induction and maintenance of behavioral hypersensitivity in a rat model of bone cancer pain with the technique of RNA interference (RNAi). We hypothesized that after intramedullary injection of Walker 256 cells (a breast cancer cell line) into the tibia, CNS neuroimmune activation and subsequent cytokine expression are triggered by the stimulation of microglial membrane-bound TLR4.ResultsWe assessed tactile allodynia and spontaneous pain in female Sprague-Dawley (SD) rats after intramedullary injection of Walker 256 cells into the tibia. In a complementary study, TLR4 small interfering RNA(siRNA) was administered intrathecally to bone cancer pain rats to reduce the expression of spinal TLR4. The bone cancer pain rats treated with TLR4 siRNA displayed significantly attenuated behavioral hypersensitivity and decreased expression of spinal microglial markers and proinflammatory cytokines compared with controls. Only intrathecal injection of TRL4 siRNA at post-inoculation day 4 could prevent initial development of bone cancer pain; intrathecal injection of TRL4 siRNA at post-inoculation day 9 could attenuate, but not completely block, well-established bone cancer pain.ConclusionsTLR4 might be the main mediator in the induction of bone cancer pain. Further study of this early, specific, and innate CNS/microglial response, and how it leads to sustained glial/neuronal hypersensitivity, might lead to new therapies for the prevention and treatment of bone cancer pain syndromes.

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AT ₁ Receptor Blockade Regulates the Local Angiotensin II System in Cerebral Microvessels From Spontaneously Hypertensive Rats

Zhou

Pavel

Macova

et al. 2006

Stroke

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Background and Purpose-Blockade of angiotensin II AT 1 receptors in cerebral microvessels protects against brain ischemia and inflammation. In this study, we tried to clarify the presence and regulation of the local renin-angiotensin system (RAS) in brain microvessels in hypertension. Methods-Spontaneously hypertensive rats (SHR) and Wistar Kyoto (WKY) controls were treated with an AT 1 receptor antagonist (candesartan, 0.3 mg/kg per day) via subcutaneous osmotic minipumps for 4 weeks. The expression and localization of RAS components and the effect of AT 1 receptor blockade were assessed by Affymetrix microarray, qRT-PCR, Western blots, immunohistochemistry and immunofluorescence. Results-We found transcripts of most of RAS components in our microarray database, and confirmed their expression by qRT-PCR. Angiotensinogen (Aogen), angiotensin-converting enzyme (ACE) and AT 1 receptors were localized to the endothelium. There was no evidence of AT 2 receptor localization in the microvascular endothelium. In SHR, (pro)renin receptor mRNA and AT 1 receptor mRNA and protein expression were higher, whereas Aogen, ACE mRNA and AT 2 receptor mRNA and protein expression were lower than in WKY rats. Candesartan treatment increased Aogen, ACE and AT 2 receptor in SHR, and increased ACE and decreased Aogen in WKY rats, without affecting the (pro)renin and AT 1 receptors. Conclusions-Increased (pro)renin and AT 1 receptor expression in SHR substantiates the importance of the local RAS overdrive in the cerebrovascular pathophysiology in hypertension. AT 1 receptor blockade and increased AT 2 receptor stimulation after administration of candesartan may contribute to the protection against brain ischemia and inflammation.

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Jin Zhou

MicroRNA expression profiles for the NCI-60 cancer cell panel

Angiotensin II AT ₁ Receptor Blockade Reverses Pathological Hypertrophy and Inflammation in Brain Microvessels of Spontaneously Hypertensive Rats

Human umbilical cord mesenchymal stem cell derived exosomes encapsulated in functional peptide hydrogels promote cardiac repair

Long-term angiotensin II AT1 receptor inhibition produces adipose tissue hypotrophy accompanied by increased expression of adiponectin and PPARγ

Angiotensin II AT₁ Receptor Blockade Abolishes Brain Microvascular Inflammation and Heat Shock Protein Responses in Hypertensive Rats

Cytokine Signaling in Skeletal Muscle Wasting

Down-Regulation of Toll-Like Receptor 4 Gene Expression by Short Interfering RNA Attenuates Bone Cancer Pain in a Rat Model

AT ₁ Receptor Blockade Regulates the Local Angiotensin II System in Cerebral Microvessels From Spontaneously Hypertensive Rats

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Jin Zhou

MicroRNA expression profiles for the NCI-60 cancer cell panel

Angiotensin II AT 1 Receptor Blockade Reverses Pathological Hypertrophy and Inflammation in Brain Microvessels of Spontaneously Hypertensive Rats

Human umbilical cord mesenchymal stem cell derived exosomes encapsulated in functional peptide hydrogels promote cardiac repair

Long-term angiotensin II AT1 receptor inhibition produces adipose tissue hypotrophy accompanied by increased expression of adiponectin and PPARγ

Angiotensin II AT1 Receptor Blockade Abolishes Brain Microvascular Inflammation and Heat Shock Protein Responses in Hypertensive Rats

Cytokine Signaling in Skeletal Muscle Wasting

Down-Regulation of Toll-Like Receptor 4 Gene Expression by Short Interfering RNA Attenuates Bone Cancer Pain in a Rat Model

AT 1 Receptor Blockade Regulates the Local Angiotensin II System in Cerebral Microvessels From Spontaneously Hypertensive Rats

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Product

Resources

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Angiotensin II AT ₁ Receptor Blockade Reverses Pathological Hypertrophy and Inflammation in Brain Microvessels of Spontaneously Hypertensive Rats

Angiotensin II AT₁ Receptor Blockade Abolishes Brain Microvascular Inflammation and Heat Shock Protein Responses in Hypertensive Rats

AT ₁ Receptor Blockade Regulates the Local Angiotensin II System in Cerebral Microvessels From Spontaneously Hypertensive Rats