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61.
All primate lentiviruses (HIV-1, HIV-2, SIV) encode Nef proteins, which are important for viral replication and pathogenicity in vivo. It is not known how Nef regulates these processes. It has been suggested that Nef protects infected cells from apoptosis and recognition by cytotoxic T lymphocytes. Other studies suggest that Nef influences the activation state of the infected cell, thereby enhancing the ability of that cell to support viral replication. Here we show that macrophages that express Nef or are stimulated through the CD40 receptor release a paracrine factor that renders T lymphocytes permissive to HIV-1 infection. This activity requires the upregulation of B-cell receptors involved in the alternative pathway of T-lymphocyte stimulation. T lymphocytes stimulated through this pathway become susceptible to viral infection without progressing through the cell cycle. We identify two proteins, soluble CD23 and soluble ICAM, that are induced from macrophages by Nef and CD40L, and which mediate their effects on lymphocyte permissivity. Our results reveal a mechanism by which Nef expands the cellular reservoir of HIV-1 by permitting the infection of resting T lymphocytes. 相似文献
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63.
A high-speed silicon optical modulator based on a metal-oxide-semiconductor capacitor 总被引:1,自引:0,他引:1
Liu A Jones R Liao L Samara-Rubio D Rubin D Cohen O Nicolaescu R Paniccia M 《Nature》2004,427(6975):615-618
Silicon has long been the optimal material for electronics, but it is only relatively recently that it has been considered as a material option for photonics. One of the key limitations for using silicon as a photonic material has been the relatively low speed of silicon optical modulators compared to those fabricated from III-V semiconductor compounds and/or electro-optic materials such as lithium niobate. To date, the fastest silicon-waveguide-based optical modulator that has been demonstrated experimentally has a modulation frequency of only approximately 20 MHz (refs 10, 11), although it has been predicted theoretically that a approximately 1-GHz modulation frequency might be achievable in some device structures. Here we describe an approach based on a metal-oxide-semiconductor (MOS) capacitor structure embedded in a silicon waveguide that can produce high-speed optical phase modulation: we demonstrate an all-silicon optical modulator with a modulation bandwidth exceeding 1 GHz. As this technology is compatible with conventional complementary MOS (CMOS) processing, monolithic integration of the silicon modulator with advanced electronics on a single silicon substrate becomes possible. 相似文献
64.
p53 is regulated by the lysine demethylase LSD1 总被引:1,自引:0,他引:1
Huang J Sengupta R Espejo AB Lee MG Dorsey JA Richter M Opravil S Shiekhattar R Bedford MT Jenuwein T Berger SL 《Nature》2007,449(7158):105-108
65.
Silvia Peppicelli Elena Andreucci Jessica Ruzzolini Anna Laurenzana Francesca Margheri Gabriella Fibbi Mario Del Rosso Francesca Bianchini Lido Calorini 《Cellular and molecular life sciences : CMLS》2017,74(15):2761-2771
Although surgical excision, chemo-, and radio-therapy are clearly advanced, tumors may relapse due to cells of the so-called “minimal residual disease”. Indeed, small clusters of tumor cells persist in host tissues after treatment of the primary tumor elaborating strategies to survive and escape from immunological attacks before their relapse: this variable period of remission is known as “cancer dormancy”. Therefore, it is crucial to understand and consider the major concepts addressing dormancy, to identify new targets and disclose potential clinical strategies. Here, we have particularly focused the relationships between tumor microenvironment and cancer dormancy, looking at a re-appreciated aspect of this compartment that is the low extracellular pH. Accumulating evidences indicate that acidity of tumor microenvironment is associated with a poor prognosis of tumor-bearing patients, stimulates a chemo- and radio-therapy resistant phenotype, and suppresses the tumoricidal activity of cytotoxic lymphocytes and natural killer cells, and all these aspects are useful for dormancy. Therefore, this review discusses the possibility that acidity of tumor microenvironment may provide a new, not previously suggested, adequate milieu for “dormancy” of tumor cells. 相似文献
66.
Witt H Sahin-Tóth M Landt O Chen JM Kähne T Drenth JP Kukor Z Szepessy E Halangk W Dahm S Rohde K Schulz HU Le Maréchal C Akar N Ammann RW Truninger K Bargetzi M Bhatia E Castellani C Cavestro GM Cerny M Destro-Bisol G Spedini G Eiberg H Jansen JB Koudova M Rausova E Macek M Malats N Real FX Menzel HJ Moral P Galavotti R Pignatti PF Rickards O Spicak J Zarnescu NO Böck W Gress TM Friess H Ockenga J Schmidt H Pfützer R Löhr M Simon P Weiss FU Lerch MM Teich N Keim V Berg T Wiedenmann B Luck W 《Nature genetics》2006,38(6):668-673
Chronic pancreatitis is a common inflammatory disease of the pancreas. Mutations in the genes encoding cationic trypsinogen (PRSS1) and the pancreatic secretory trypsin inhibitor (SPINK1) are associated with chronic pancreatitis. Because increased proteolytic activity owing to mutated PRSS1 enhances the risk for chronic pancreatitis, mutations in the gene encoding anionic trypsinogen (PRSS2) may also predispose to disease. Here we analyzed PRSS2 in individuals with chronic pancreatitis and controls and found, to our surprise, that a variant of codon 191 (G191R) is overrepresented in control subjects: G191R was present in 220/6,459 (3.4%) controls but in only 32/2,466 (1.3%) affected individuals (odds ratio 0.37; P = 1.1 x 10(-8)). Upon activation by enterokinase or trypsin, purified recombinant G191R protein showed a complete loss of trypsin activity owing to the introduction of a new tryptic cleavage site that renders the enzyme hypersensitive to autocatalytic proteolysis. In conclusion, the G191R variant of PRSS2 mitigates intrapancreatic trypsin activity and thereby protects against chronic pancreatitis. 相似文献
67.
Sarno S Mazzorana M Traynor R Ruzzene M Cozza G Pagano MA Meggio F Zagotto G Battistutta R Pinna LA 《Cellular and molecular life sciences : CMLS》2012,69(3):449-460
8-hydroxy-4-methyl-9-nitrobenzo(g)chromen-2-one (NBC) has been found to be a fairly potent ATP site-directed inhibitor of
protein kinase CK2 (Ki = 0.22 μM). Here, we show that NBC also inhibits PIM kinases, especially PIM1 and PIM3, the latter
as potently as CK2. Upon removal of the nitro group, to give 8-hydroxy-4-methyl-benzo(g)chromen-2-one (here referred to as
“denitro NBC”, dNBC), the inhibitory power toward CK2 is almost entirely lost (IC50 > 30 μM) whereas that toward PIM1 and PIM3 is maintained; in addition, dNBC is a potent inhibitor of a number of other kinases
that are weakly inhibited or unaffected by NBC, with special reference to DYRK1A whose IC50 values with NBC and dNBC are 15 and 0.60 μM, respectively. Therefore, the observation that NBC, unlike dNBC, is a potent
inducer of apoptosis is consistent with the notion that this effect is mediated by inhibition of endogenous CK2. The structural
features underlying NBC selectivity have been revealed by inspecting its 3D structure in complex with the catalytic subunit
of Z. mays CK2. The crucial role of the nitro group is exerted both through a direct electrostatic interaction with the side chain of Lys68
and, indirectly, by enhancing the acidic dissociation constant of the adjacent hydroxyl group which interacts with a conserved
water molecule in the deepest part of the cavity. By contrast, the very same nitro group is deleterious for the binding to
the active site of DYRK1A, as disclosed by molecular docking. This provides the rationale for preferential inhibition of DYRK1A
by dNBC. 相似文献
68.
A recurrent 15q13.3 microdeletion syndrome associated with mental retardation and seizures 总被引:1,自引:0,他引:1
Sharp AJ Mefford HC Li K Baker C Skinner C Stevenson RE Schroer RJ Novara F De Gregori M Ciccone R Broomer A Casuga I Wang Y Xiao C Barbacioru C Gimelli G Bernardina BD Torniero C Giorda R Regan R Murday V Mansour S Fichera M Castiglia L Failla P Ventura M Jiang Z Cooper GM Knight SJ Romano C Zuffardi O Chen C Schwartz CE Eichler EE 《Nature genetics》2008,40(3):322-328
We report a recurrent microdeletion syndrome causing mental retardation, epilepsy and variable facial and digital dysmorphisms. We describe nine affected individuals, including six probands: two with de novo deletions, two who inherited the deletion from an affected parent and two with unknown inheritance. The proximal breakpoint of the largest deletion is contiguous with breakpoint 3 (BP3) of the Prader-Willi and Angelman syndrome region, extending 3.95 Mb distally to BP5. A smaller 1.5-Mb deletion has a proximal breakpoint within the larger deletion (BP4) and shares the same distal BP5. This recurrent 1.5-Mb deletion contains six genes, including a candidate gene for epilepsy (CHRNA7) that is probably responsible for the observed seizure phenotype. The BP4-BP5 region undergoes frequent inversion, suggesting a possible link between this inversion polymorphism and recurrent deletion. The frequency of these microdeletions in mental retardation cases is approximately 0.3% (6/2,082 tested), a prevalence comparable to that of Williams, Angelman and Prader-Willi syndromes. 相似文献
69.
Mario Vallon Junlei Chang Haijing Zhang Calvin J. Kuo 《Cellular and molecular life sciences : CMLS》2014,71(18):3489-3506
Angiogenesis, the formation of new blood vessels from pre-existing vessels, in the central nervous system (CNS) is seen both as a normal physiological response as well as a pathological step in disease progression. Formation of the blood–brain barrier (BBB) is an essential step in physiological CNS angiogenesis. The BBB is regulated by a neurovascular unit (NVU) consisting of endothelial and perivascular cells as well as vascular astrocytes. The NVU plays a critical role in preventing entry of neurotoxic substances and regulation of blood flow in the CNS. In recent years, research on numerous acquired and hereditary disorders of the CNS has increasingly emphasized the role of angiogenesis in disease pathophysiology. Here, we discuss molecular mechanisms of CNS angiogenesis during embryogenesis as well as various pathological states including brain tumor formation, ischemic stroke, arteriovenous malformations, and neurodegenerative diseases. 相似文献
70.
Takeda Y Costa S Delamarre E Roncal C Leite de Oliveira R Squadrito ML Finisguerra V Deschoemaeker S Bruyère F Wenes M Hamm A Serneels J Magat J Bhattacharyya T Anisimov A Jordan BF Alitalo K Maxwell P Gallez B Zhuang ZW Saito Y Simons M De Palma M Mazzone M 《Nature》2011,479(7371):122-126
PHD2 serves as an oxygen sensor that rescues blood supply by regulating vessel formation and shape in case of oxygen shortage. However, it is unknown whether PHD2 can influence arteriogenesis. Here we studied the role of PHD2 in collateral artery growth by using hindlimb ischaemia as a model, a process that compensates for the lack of blood flow in case of major arterial occlusion. We show that Phd2 (also known as Egln1) haplodeficient (Phd2(+/-)) mice displayed preformed collateral arteries that preserved limb perfusion and prevented tissue necrosis in ischaemia. Improved arteriogenesis in Phd2(+/-) mice was due to an expansion of tissue-resident, M2-like macrophages and their increased release of arteriogenic factors, leading to enhanced smooth muscle cell (SMC) recruitment and growth. Both chronic and acute deletion of one Phd2 allele in macrophages was sufficient to skew their polarization towards a pro-arteriogenic phenotype. Mechanistically, collateral vessel preconditioning relied on the activation of canonical NF-κB pathway in Phd2(+/-) macrophages. These results unravel how PHD2 regulates arteriogenesis and artery homeostasis by controlling a specific differentiation state in macrophages and suggest new treatment options for ischaemic disorders. 相似文献