Abstract: The present invention provides compositions and methods for reducing inflammation in the lungs of a mammal that is afflicted by a condition that leads to inflammation in the lungs. The compositions and methods described herein include agents that inhibit inflammasome signaling in the mammal such as antibodies directed against inflammasome components used alone or in combination with extracellular vesicle uptake inhibitor(s).

Abstract: The compositions and methods described herein include agents that inhibit inflammasome signaling in the mammal such as antibodies directed against inflammasome components used alone or in combination with extracellular vesicle uptake inhibitor(s). Also described herein are compositions and methods of use thereof for treating multiple sclerosis.

Abstract: Compositions and methods for reducing inflammation in the central nervous system (CNS) of a mammal that has been subjected to a stroke, traumatic injury to the CNS such as traumatic brain injury (TBI), spinal cord injury (SCI), or having an autoimmune or CNS disease have been developed. The compositions and methods described herein include antibodies that specifically bind to at least one component (e.g., ASC, NALP1) in a mammalian inflammasome (e.g., the NALP1 inflammasome) and have use as treatments for SCI, TBI, stroke, and autoimmune and CNS diseases in a mammal. In a rodent model of SCI, therapeutic neutralization of ASC using a polyclonal antibody that specifically binds to ASC inhibited the inflammasome, reduced caspase-1 activation, XIAP cleavage, and interleukin processing, resulting in significant tissue sparing and functional improvement. Additionally, in a rodent model of TBI, neutralization of ASC after TBI reduced caspase-1 activation and XIAP cleavage.

Abstract: The present invention provides novel markers of the severity of a central nervous system injury, such as spinal cord injury or traumatic brain injury, in a patient. In particular, protein components of inflammasomes in the cerebrospinal fluid that can be used to assess the serverity of central nervous system injury in a patient are disclosed. Methods of using such protein biomarkers to determine a prognosis, direct treatment and rehabilition efforts, and monitor response to treatment for a patient with a central nervous system injury are also described.

Abstract: Compositions and methods for reducing inflammation in the central nervous system (CNS) of a mammal that has been subjected to a stroke, traumatic injury to the CNS such as traumatic brain injury (TBI), spinal cord injury (SCI), or having an autoimmune or CNS disease have been developed. The compositions and methods described herein include antibodies that specifically bind to at least one component (e.g., ASC, NALP1) in a mammalian inflammasome (e.g., the NALP1 inflammasome) and have use as treatments for SCI, TBI, stroke, and autoimmune and CNS diseases in a mammal. In a rodent model of SCI, therapeutic neutralization of ASC using a polyclonal antibody that specifically binds to ASC inhibited the inflammasome, reduced caspase-1 activation, XIAP cleavage, and interleukin processing, resulting in significant tissue sparing and functional improvement. Additionally, in a rodent model of TBI, neutralization of ASC after TBI reduced caspase-1 activation and XIAP cleavage.

Abstract: The present invention provides novel markers of the severity of a central nervous system injury, such as spinal cord injury or traumatic brain injury, in a patient. In particular, protein components of inflammasomes in the cerebrospinal fluid that can be used to assess the severity of central nervous system injury in a patient are disclosed. Methods of using such protein biomarkers to determine a prognosis, direct treatment and rehabilitation efforts, and monitor response to treatment for a patient with a central nervous system injury are also described.

Abstract: Compositions and methods for reducing inflammation in the central nervous system (CNS) of a mammal that has been subjected to a stroke, traumatic injury to the CNS such as traumatic brain injury (TBI), spinal cord injury (SCI), or having an autoimmune or CNS disease have been developed. The compositions and methods described herein include antibodies that specifically bind to at least one component (e.g., ASC, NALP1) in a mammalian inflammasome (e.g., the NALP1 inflammasome) and have use as treatments for SCI, TBI, stroke, and autoimmune and CNS diseases in a mammal. In a rodent model of SCI, therapeutic neutralization of ASC using a polyclonal antibody that specifically binds to ASC inhibited the inflammasome, reduced caspase-1 activation, XIAP cleavage, and interleukin processing, resulting in significant tissue sparing and functional improvement. Additionally, in a rodent model of TBI, neutralization of ASC after TBI reduced caspase-1 activation and XIAP cleavage.

Abstract: Compositions and methods for reducing inflammation in the central nervous system (CNS) of a mammal that has been subjected to a stroke, traumatic injury to the CNS such as traumatic brain injury (TBI), spinal cord injury (SCI), or having an autoimmune or CNS disease have been developed. The compositions and methods described herein include antibodies that specifically bind to at least one component (e.g., ASC, NALP1) in a mammalian inflammasome (e.g., the NALP1 inflammasome) and have use as treatments for SCI, TBI, stroke, and autoimmune and CNS diseases in a mammal. In a rodent model of SCI, therapeutic neutralization of ASC using a polyclonal antibody that specifically binds to ASC inhibited the inflammasome, reduced caspase-1 activation, XIAP cleavage, and interleukin processing, resulting in significant tissue sparing and functional improvement. Additionally, in a rodent model of TBI, neutralization of ASC after TBI reduced caspase-1 activation and XIAP cleavage.

Abstract: Compositions and methods for reducing inflammation in the central nervous system (CNS) of a mammal that has been subjected to a stroke, traumatic injury to the CNS such as traumatic brain injury (TBI), spinal cord injury (SCI), or having an autoimmune or CNS disease have been developed. The compositions and methods described herein include antibodies that specifically bind to at least one component (e.g., ASC, NALP1) in a mammalian inflammasome (e.g., the NALP1 inflammasome) and have use as treatments for SCI, TBI, stroke, and autoimmune and CNS diseases in a mammal. In a rodent model of SCI, therapeutic neutralization of ASC using a polyclonal antibody that specifically binds to ASC inhibited the inflammasome, reduced caspase-1 activation, XIAP cleavage, and interleukin processing, resulting in significant tissue sparing and functional improvement. Additionally, in a rodent model of TBI, neutralization of ASC after TBI reduced caspase-1 activation and XIAP cleavage.