nesis by regulating the pro-angiogenic factors in NPC The HUVEC tube-formation assay was utilized to examine the pro-angiogenic activity of p65 MedChemExpress 487-52-5 PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19667251 in NPC. Conditioned media were collected from cells of p65 shRNA knockdown, over-expression of IB-SR, and their corresponding controls to perform HUVEC tube formation assay. HUVEC tube-forming abilities were largely suppressed by conditioned media collected from p65 shRNA knockdown- and IB-SR- expression, possibly due to a 6 / 21 Role of p65 NF-B and Its Modulatory Mechanism in NPC Fig 2. ~~ ~~ ~~ Cerebrovascular disease is a leading cause of disability, and one of the three major causes of death along with heart diseases and malignant tumors. Data published in the China Health Statistical Yearbook showed that cerebrovascular disease was the third cause of death among urban residents and the first among rural residents. It has been suggested that cerebrovascular disease is a secondary factor affecting life expectancy in China. Additionally, cerebrovascular disease was ranked among the top 4 causes of death in the United States. The 1 / 14 Selection of Genes Associated with Variations in CoW in Gerbils by SSH with Variations in the Circle of Willis in Gerbils in this study. Competing Interests: The authors have declared that no competing interests exist, Circle of Willis, or Willis’ Circle, is a primary arterial collateral structure interconnecting hemispheric circulation within the brain, and it is composed of the anterior cerebral artery, anterior communicating artery, internal carotid artery, posterior cerebral artery, and posterior communicating artery . The CoW is related to various cerebrovascular diseases. Studies have shown that a variety of CoW deformities occur in humans; only 45.2% of the population has a normal CoW structure, while the remaining 54.8% has variations in the ACoA and PCoA, and subsequently are at increased risk of cerebrovascular disease. Eighty-five percent of saccular aneurysms occur at the polygon of the CoW, and the incidence of ruptured aneurysms in patients with anatomical variation of the CoW can be as high as 75.7%. In addition, variation in the CoW is a risk factor for ischemia and stroke in humans and is significantly linked to intracerebral hemorrhage in ischemic stroke patients after intravenous thrombolysis. Furthermore, variations in the CoW can affect the symptoms and prognosis of cerebral ischemia caused by internal carotid artery occlusion. Elucidating the molecular mechanisms causing variations in the CoW is important for predicting and evaluating cerebrovascular disease risk. In studies of the cerebrovascular diseases, the Mongolian gerbil has been used as a model animal for cerebral ischemia, because of malformations in the CoW observed in this species. Both the PCoA and ACoA of the CoW in gerbils express different types of variations. We identified these variations based on the completeness of the PCoA and ACoA and classified them into 8 categories: Type A-I, both the PCoA and ACoA are complete; PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19666694 Type A-II, the PCoA is complete, but the ACoA is missing; Type A-III, the PCoA is complete, but the left branch of the ACA is small or missing; Type A-IV, the PCoA is complete, but the right branch of the ACA is small or missing; Type B-I, the PCoA is missing and the ACoA is complete; Type B-II, both the PCoA and ACoA are missing; Type B-III, the PCoA is missing and the left branch of the ACA is small or missing; and Type B-IV, the PCoA is missing and the ri