Patent application number | Description | Published |
20080249046 | MODIFIED siRNA MOLECULES AND USES THEREOF - The present invention provides chemically modified siRNA molecules and methods of using such siRNA molecules to silence target gene expression. Advantageously, the modified siRNA of the present invention is less immunostimulatory than its corresponding unmodified siRNA sequence and retains full RNAi activity against the target sequence. The present invention also provides nucleic acid-lipid particles comprising a modified siRNA, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. Methods for identifying and/or modifying an siRNA having immunostimulatory properties are also provided. | 10-09-2008 |
20090149403 | siRNA silencing of genes expressed in cancer - The present invention provides nucleic acid-lipid particles comprising siRNA molecules that silence genes expressed in cancer (e.g., Eg5, EGFR or XIAP) and methods of using such nucleic acid-lipid particles to silence Eg5, EGFR or XIAP gene expression. | 06-11-2009 |
20090270481 | MODIFIED siRNA MOLECULES AND USES THEREOF - The present invention provides chemically modified siRNA molecules and methods of using such siRNA molecules to silence target gene expression. Advantageously, the modified siRNA of the present invention is less immunostimulatory than its corresponding unmodified siRNA sequence and retains RNAi activity against the target sequence. The present invention also provides nucleic acid-lipid particles comprising a modified siRNA, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. The present invention further provides methods of silencing gene expression by administering a modified siRNA to a mammalian subject. Methods for identifying and/or modifying an siRNA having immunostimulatory properties are also provided. | 10-29-2009 |
20090291131 | SILENCING OF POLO-LIKE KINASE EXPRESSION USING INTERFERING RNA - The present invention provides compositions comprising interfering RNA (e.g., siRNA, aiRNA, miRNA) that target polo-like kinase 1 (PLK-1) expression and methods of using such compositions to silence PLK-1 expression. More particularly, the present invention provides unmodified and chemically modified interfering RNA molecules which silence PLK-1 expression and methods of use thereof. The present invention also provides serum-stable nucleic acid-lipid particles (e.g., SNALP) comprising an interfering RNA molecule described herein, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. The present invention further provides methods of silencing PLK-1 gene expression by administering an interfering RNA molecule described herein to a mammalian subject. The present invention additionally provides methods of identifying and/or modifying PLK-1 interfering RNA having immunostimulatory properties. Methods for sensitizing a cell such as a cancer cell to the effects of a chemotherapy drug comprising sequentially delivering PLK-1 interfering RNA followed by the chemotherapy drug are also provided. | 11-26-2009 |
20110071208 | LIPID ENCAPSULATED DICER-SUBSTRATE INTERFERING RNA - The present invention provides novel, stable nucleic acid-lipid particles comprising one or more Dicer-substrate dsRNAs and/or small hairpin RNAs (shRNAs), methods of making the particles, and methods of delivering and/or administering the particles (e.g., for the treatment of a disease or disorder). In some embodiments, the nucleic acid-lipid particles of the invention comprise Dicer-substrate dsRNAs and/or shRNAs. In other embodiments, the nucleic acid-lipid particles of the invention comprise Dicer-substrate dsRNAs and/or shRNAs in combination with one or more additional interfering RNAs (e.g., siRNA, aiRNA, and/or miRNA). In further embodiments, the Dicer-substrate dsRNAs and/or shRNAs present in the nucleic acid-lipid particles of the invention are chemically synthesized. | 03-24-2011 |
20110076335 | NOVEL LIPID FORMULATIONS FOR DELIVERY OF THERAPEUTIC AGENTS TO SOLID TUMORS - The present invention provides novel, serum-stable lipid particles comprising one or more active agents or therapeutic agents, methods of making the lipid particles, and methods of delivering and/or administering the lipid particles. More particularly, the present invention provides serum-stable nucleic acid-lipid particles (SNALP) comprising a nucleic acid (e.g., one or more interfering RNA molecules), methods of making the SNALP, and methods of delivering and/or administering the SNALP (e.g., for the treatment of cancer). In particular embodiments, the present invention provides tumor-directed lipid particles that preferentially target solid tumors. The tumor-directed formulations of the present invention are capable of preferentially delivering a payload such as a nucleic acid to cells of solid tumors compared to non-cancerous cells. | 03-31-2011 |
20110178155 | SILENCING OF CSN5 GENE EXPRESSION USING INTERFERING RNA - The present invention provides compositions comprising nucleic acids that target CSN5 gene expression and methods of using such compositions to silence CSN5 gene expression. More particularly, the present invention provides unmodified and chemically modified interfering RNA molecules which silence CSN5 gene expression and methods of use thereof, e.g., for treating cell proliferative disorders such as cancer. The present invention also provides nucleic acid-lipid particles that target CSN5 gene expression comprising an interfering RNA molecule, a cationic lipid, a non-cationic lipid, and optionally a conjugated lipid that inhibits aggregation of particles. | 07-21-2011 |
20110189300 | siRNA SILENCING OF APOLIPOPROTEIN B - The present invention provides nucleic acid-lipid particles comprising siRNA molecules that silence ApoB expression and methods of using such nucleic acid-lipid particles to silence ApoB expression. | 08-04-2011 |
20110195127 | COMPOSITIONS AND METHODS FOR SILENCING APOLIPOPROTEIN B - The present invention provides compositions and methods for the delivery of interfering RNAs that silence APOB expression to liver cells. In particular, the nucleic acid-lipid particles provide efficient encapsulation of nucleic acids and efficient delivery of the encapsulated nucleic acid to cells in vivo. The compositions of the present invention are highly potent, thereby allowing effective knock-down of APOB at relatively low doses. In addition, the compositions and methods of the present invention are less toxic and provide a greater therapeutic index compared to compositions and methods previously known in the art. | 08-11-2011 |
20110201667 | COMPOSITIONS AND METHODS FOR SILENCING EBOLA VIRUS GENE EXPRESSION - The present invention provides compositions comprising therapeutic nucleic acids (e.g., interfering RNA such as siRNA) that target Ebola virus (EBOV) gene expression and methods of using such compositions to silence EBOV gene expression. More particularly, the invention provides unmodified and chemically modified interfering RNA which silence EBOV gene expression and methods of use thereof, e.g., for preventing or treating EBOV infections caused by one or more EBOV species such as Zaire EBOV. The invention also provides serum-stable nucleic acid-lipid particles comprising one or more interfering RNA molecules, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. Methods of silencing EBOV gene expression by administering one or more interfering RNA molecules to a mammalian subject are also provided. | 08-18-2011 |
20110224418 | MODIFIED sIRNA MOLECULES AND USES THEREOF - The present invention provides chemically modified siRNA molecules and methods of using such siRNA molecules to silence target gene expression. Advantageously, the modified siRNA of the present invention is less immunostimulatory than its corresponding unmodified siRNA sequence and retains full RNAi activity against the target sequence. The present invention also provides nucleic acid-lipid particles comprising a modified siRNA, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. Methods for identifying and/or modifying an siRNA having immunostimulatory properties are also provided. | 09-15-2011 |
20120328668 | MODIFIED SIRNA MOLECULES AND USES THEREOF - The present invention provides chemically modified siRNA molecules and methods of using such siRNA molecules to silence target gene expression. Advantageously, the modified siRNA of the present invention is less immunostimulatory than its corresponding unmodified siRNA sequence and retains RNAi activity against the target sequence. The present invention also provides nucleic acid-lipid particles comprising a modified siRNA, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. The present invention further provides methods of silencing gene expression by administering a modified siRNA to a mammalian subject. Methods for identifying and/or modifying an siRNA having immunostimulatory properties are also provided. | 12-27-2012 |
20130022649 | SNALP FORMULATIONS CONTAINING ANTIOXIDANTS - The present invention provides methods of preventing, decreasing, or inhibiting the degradation of cationic lipids and/or active agents (e.g., therapeutic nucleic acids) present in lipid particles, compositions comprising lipid particles stabilized by these methods, methods of making these lipid particles, and methods of delivering and/or administering these lipid particles, e.g., for the treatment of a disease or disorder. | 01-24-2013 |
20130065939 | COMPOSITIONS AND METHODS FOR SILENCING GENES EXPRESSED IN CANCER - The present invention provides therapeutic nucleic acids such as interfering RNA (e.g., siRNA) that target the expression of genes associated with tumorigenesis and/or cell transformation, lipid particles (e.g., nucleic acid-lipid particles) comprising one or more (e.g., a cocktail) of the therapeutic nucleic acids, methods of making the lipid particles, and methods of delivering and/or administering the lipid particles, e.g., for the treatment of a cell proliferative disorder such as cancer. | 03-14-2013 |
20130122104 | NOVEL LIPID FORMULATIONS FOR DELIVERY OF THERAPEUTIC AGENTS TO SOLID TUMORS - The present invention provides novel, serum-stable lipid particles comprising one or more active agents or therapeutic agents, methods of making the lipid particles, and methods of delivering and/or administering the lipid particles. More particularly, the present invention provides serum-stable nucleic acid-lipid particles (SNALP) comprising a nucleic acid (e.g., one or more interfering RNA molecules), methods of making the SNALP, and methods of delivering and/or administering the SNALP (e.g., for the treatment of cancer). In particular embodiments, the present invention provides tumor-directed lipid particles that preferentially target solid tumors. The tumor-directed formulations of the present invention are capable of preferentially delivering a payload such as a nucleic acid to cells of solid tumors compared to non-cancerous cells. | 05-16-2013 |
20130123339 | COMPOSITIONS AND METHODS FOR SILENCING APOLIPOPROTEIN B - The present invention provides compositions and methods for the delivery of interfering RNAs such as siRNAs that silence APOB expression in cells such as liver cells. In particular, the nucleic acid-lipid particles provide efficient encapsulation of nucleic acids and efficient delivery of the encapsulated nucleic acid to cells such as liver cells in vivo. The compositions of the present invention are highly potent, thereby allowing effective knock-down of APOB at relatively low doses. In addition, the compositions and methods of the present invention are less toxic and provide a greater therapeutic index compared to compositions and methods previously known in the art. | 05-16-2013 |
20130178511 | SILENCING OF CSN5 GENE EXPRESSION USING INTERFERING RNA - The present invention provides compositions comprising nucleic acids that target CSN5 gene expression and methods of using such compositions to silence CSN5 gene expression. More particularly, the present invention provides unmodified and chemically modified interfering RNA molecules which silence CSN5 gene expression and methods of use thereof, e.g., for treating cell proliferative disorders such as cancer. The present invention also provides nucleic acid-lipid particles that target CSN5 gene expression comprising an interfering RNA molecule, a cationic lipid, a non-cationic lipid, and optionally a conjugated lipid that inhibits aggregation of particles. | 07-11-2013 |
20140161894 | SIRNA SILENCING OF GENES EXPRESSED IN CANCER - The present invention provides nucleic acid-lipid particles comprising siRNA molecules that silence genes expressed in cancer (e.g., Eg5, EGFR or XIAP) and methods of using such nucleic acid-lipid particles to silence Eg5, EGFR or XIAP gene expression. | 06-12-2014 |
20140179756 | MODIFIED SIRNA MOLECULES AND USES THEREOF - The present invention provides chemically modified siRNA molecules and methods of using such siRNA molecules to silence target gene expression. Advantageously, the modified siRNA of the present invention is less immunostimulatory than its corresponding unmodified siRNA sequence and retains RNAi activity against the target sequence. The present invention also provides nucleic acid-lipid particles comprising a modified siRNA, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. The present invention further provides methods of silencing gene expression by administering a modified siRNA to a mammalian subject. Methods for identifying and/or modifying an siRNA having immunostimulatory properties are also provided. | 06-26-2014 |
20150111945 | COMPOSITIONS AND METHODS FOR SILENCING EBOLA VIRUS GENE EXPRESSION - The present invention provides compositions comprising therapeutic nucleic acids (e.g., interfering RNA such as siRNA) that target Ebola virus (EBOV) gene expression and methods of using such compositions to silence EBOV gene expression. More particularly, the invention provides unmodified and chemically modified interfering RNA which silence EBOV gene expression and methods of use thereof, e.g., for preventing or treating EBOV infections caused by one or more EBOV species such as Zaire EBOV. The invention also provides serum-stable nucleic acid-lipid particles comprising one or more interfering RNA molecules, a cationic lipid, and a non-cationic lipid, which can further comprise a conjugated lipid that inhibits aggregation of particles. Methods of silencing EBOV gene expression by administering one or more interfering RNA molecules to a mammalian subject are also provided. | 04-23-2015 |
Patent application number | Description | Published |
20110149963 | DISTRIBUTED ROUTING ARCHITECTURE - A hierarchical distributed routing architecture including at least two levels, or layers, for receiving, processing and forwarding data packets between network components is provided. The core level router components receive an incoming packet from a network component and identify a distribution level router component based on processing a subset of the destination address associated with the received packet. The distribution level router components receive a forwarded packet and forward the packet to a respective network. The mapping, or other assignment, of portions of the FIB associated with the distributed routing environment is managed by a router management component. | 06-23-2011 |
20110149964 | DISTRIBUTED ROUTING ARCHITECTURE - A hierarchical distributed routing architecture including at least three levels, or layers, for receiving, processing and forwarding data packets between network components is provided. The core level router components receive an incoming packet from a network component and identify a distribution level router component based on processing a subset of the destination address associated with the received packet. The distribution level router components that receiving a forwarded packet and identify a transit level router component based a second processing of at least a subset of the destination address associated with the received packet. The transit level router components receive the forwarded packet and forward the packet to a respective network. The mapping, or other assignment, of portions of the FIB associated with the distributed routing environment is managed by a router management component. | 06-23-2011 |
20110149965 | DISTRIBUTED ROUTING ARCHITECTURE - A hierarchical distributed routing architecture including at least three levels, or layers, for receiving, processing and forwarding data packets between network components is provided. The core level router components receive an incoming packet from a network component and identify a distribution level router component based on processing a subset of the destination address associated with the received packet. The distribution level router components that receiving a forwarded packet and identify a transit level router component based a second processing of at least a subset of the destination address associated with the received packet. The distribution level router components maintain address routing information a first and second memory. The transit level router components receive the forwarded packet and forward the packet to a respective network. The mapping, or other assignment, of portions of the FIB associated with the distributed routing environment is managed by a router management component. | 06-23-2011 |
20120072602 | TRANSPOSE BOX BASED NETWORK SCALING - The deployment and scaling of a network of electronic devices can be improved by utilizing one or more network transpose boxes. Each transpose box can include a number of connectors and a meshing useful for implementing a specific network topology. When connecting devices of different tiers in the network, each device need only be connected to at least one of the connectors on the transpose box. The meshing of the transpose box can cause each device to be connected to any or all of the devices in the other tier as dictated by the network topology. When changing network topologies or scaling the network, additional devices can be added to available connectors on an existing transpose box, or new or additional transpose boxes can be deployed in order to handle the change with minimal cabling effort. | 03-22-2012 |
20120072614 | TRANSPOSE BOXES FOR NETWORK INTERCONNECTION - The deployment and scaling of a network of electronic devices can be improved by utilizing one or more network transpose boxes. Each transpose box can include a number of connectors and a meshing useful for implementing a specific network topology. When connecting devices of different tiers in the network, each device need only be connected to at least one of the connectors on the transpose box. The meshing of the transpose box can cause each device to be connected to any or all of the devices in the other tier as dictated by the network topology. When changing network topologies or scaling the network, additional devices can be added to available connectors on an existing transpose box, or new or additional transpose boxes can be deployed in order to handle the change with minimal cabling effort. | 03-22-2012 |
20120250679 | Network Transpose Box and Switch Operation Based on Backplane Ethernet - The deployment and scaling of a network of electronic devices can be improved by utilizing one or more network transpose boxes. Each transpose box can include a number of connectors and a meshing useful for implementing a specific network topology. When connecting devices of different tiers in the network, each device need only be connected to at least one of the connectors on the transpose box. One or more of the deployed electronic devices (e.g., switches, transpose boxes) in the network can transmit data based on a backplane Ethernet standard, such as 10GBASE-KR, 10GBASE-KX4, or 40GBASE-KR4. | 10-04-2012 |
20130010788 | DISTRIBUTED ROUTING ARCHITECTURE - A hierarchical distributed routing architecture including at least two levels, or layers, for receiving, processing and forwarding data packets between network components is provided. The core level router components receive an incoming packet from a network component and identify a distribution level router component based on processing a subset of the destination address associated with the received packet. The distribution level router components receive a forwarded packet and forward the packet to a respective network. The mapping, or other assignment, of portions of the FIB associated with the distributed routing environment is managed by a router management component. | 01-10-2013 |
20130010796 | DISTRIBUTED ROUTING ARCHITECTURE - A hierarchical distributed routing architecture including at least three levels, or layers, for receiving, processing and forwarding data packets between network components is provided. The core level router components receive an incoming packet from a network component and identify a distribution level router component based on processing a subset of the destination address associated with the received packet. The distribution level router components that receiving a forwarded packet and identify a transit level router component based a second processing of at least a subset of the destination address associated with the received packet. The transit level router components receive the forwarded packet and forward the packet to a respective network. The mapping, or other assignment, of portions of the FIB associated with the distributed routing environment is managed by a router management component. | 01-10-2013 |
20140269256 | NETWORK CAPACITY PLANNING - Systems, methods and interfaces are provided for the modeling of network data capacity for a network corresponding to a set of nodes interconnected via point-to-point network paths. A network capacity processing system obtains demand estimates for the nodes and network paths of the network. The network capacity processing system then identifies a set of failure scenarios for the network nodes and network paths. The network capacity processing system then generates of a set of processing results corresponding to load estimates for the network paths of the network and based on applying the set of failure scenarios to the model of network data capacity. Utilizing data capacity models, failure scenarios and set of processing results, the network capacity processing system can provide for network capacity planning or contingency planning. | 09-18-2014 |
20150089049 | WIDE AREA NETWORK MONITORING - As exterior routing protocols generally do not provide information about the internal routing paths of an autonomous system, a particular autonomous system has limited information about the internal health of other autonomous systems. However, if a monitoring system has access to routing data and/or other network data from multiple points of an autonomous system, the monitoring system can estimate, with some accuracy, the health of the autonomous system. In turn, by monitoring at least some of autonomous systems forming a larger internetwork, such as the Internet, the monitoring system can estimate the overall health of at least portions of the internetwork. | 03-26-2015 |