Abstract: Novel quinazolinones useful as inhibitors of tau oligomer formation, useful for the treatment of neurodegenerative diseases and related conditions are disclosed. The invention also relates to the pharmaceutically acceptable salts of said compounds, processes for the preparation of said compounds, intermediates used in the preparation of said compounds, and pharmaceutical compositions containing said compounds. The invention further relates to methods of use of said compounds, salts of said compounds, and said compositions in treating neurodegenerative diseases and related conditions.

Abstract: Novel benzofurans, benzothiophenes and indoles useful as inhibitors of tau oligomer formation, useful for the treatment of neurodegenerative diseases and related conditions are disclosed. The invention also relates to the pharmaceutically acceptable salts of said compounds, processes for the preparation of said compounds, intermediates used in the preparation of said compounds, and pharmaceutical compositions containing said compounds. The invention further relates to methods of use of said compounds, salts of said compounds, and said compositions in treating neurodegenerative diseases and related conditions.

Abstract: Tau protein has a causative role in Alzheimer's disease and multiple other neurodegenerative disorders exhibiting tau histopathology collectively termed tauopathies. The primary function of tau protein is to facilitate assembly and maintenance of microtubules in neuronal axons. In the disease process tau protein becomes modified, loses its affinity to microtubules and accumulates in the cell body where it forms aggregates. The large neurofibrillary tangles formed from tau protein assembled into filaments were thought to be the pathological structure of tau. However, more recent work indicates that smaller, soluble oligomeric forms of tau are best associated with neuron loss and memory impairment. Here, novel compositions of tau oligomers and novel mechanisms for tau oligomer nucleation, extension and termination are taught.

Abstract: Tau protein has a causative role in Alzheimer's disease and multiple other neurodegenerative disorders exhibiting tau histopathology collectively termed tauopathies. The primary function of tau protein is to facilitate assembly and maintenance of microtubules in neuronal axons. In the disease process tau protein becomes modified, loses its affinity to microtubules and accumulates in the cell body where it forms aggregates. The large neurofibrillary tangles formed from tau protein assembled into filaments were thought to be the pathological structure of tau. However, more recent work indicates that smaller, soluble oligomeric forms of tau are best associated with neuron loss and memory impairment. Here, novel compositions of tau oligomers and novel mechanisms for tau oligomer nucleation, extension and termination are taught.

Abstract: Novel benzofurans, benzothiophenes and indoles useful as inhibitors of tau oligomer formation, useful for the treatment of neurodegenerative diseases and related conditions are disclosed. The invention also relates to the pharmaceutically acceptable salts of said compounds, processes for the preparation of said compounds, intermediates used in the preparation of said compounds, and pharmaceutical compositions containing said compounds. The invention further relates to methods of use of said compounds, salts of said compounds, and said compositions in treating neurodegenerative diseases and related conditions.

Abstract: Disclosed are mammalian tau proteases, as well as proteolytically-active fragments, variants, and mutants thereof. Also disclosed are polynucleotides and recombinant expression vectors that encode these polypeptides, as well as methods for producing such proteins in selected recombinant host cells, and for using the compositions in a variety of diagnostic and analytical assays.

Abstract: Disclosed are mammalian tau proteases, as well as proteolytically-active fragments, variants, and mutants thereof. Also disclosed are polynucleotides and recombinant expression vectors that encode these polypeptides, as well as methods for producing such proteins in selected recombinant host cells, and for using the compositions in a variety of diagnostic and analytical assays.

Abstract: The invention relates to antibodies, antibody fragments and binding agents that specifically recognize oligomeric tau but do not bind to monomelic tau, fibrillar tau or non-disease associated forms of tau.

Abstract: Novel quinazolinones useful as inhibitors of tau oligomer formation, useful for the treatment of neurodegenerative diseases and related conditions are disclosed. The invention also relates to the pharmaceutically acceptable salts of said compounds, processes for the preparation of said compounds, intermediates used in the preparation of said compounds, and pharmaceutical compositions containing said compounds. The invention further relates to methods of use of said compounds, salts of said compounds, and said compositions in treating neurodegenerative diseases and related conditions.

Abstract: The invention relates to antibodies, antibody fragments and binding agents that specifically recognize oligomeric tau but do not bind to monomelic tau, fibrillar tau or non-disease associated forms of tau.

Abstract: The invention relates to antibodies, antibody fragments and binding agents that specifically recognize oligomeric tau but do not bind to monomelic tau, fibrillar tau or non-disease associated forms of tau.

Abstract: Disclosed are mammalian tau proteases, as well as proteolytically-active fragments, variants, and mutants thereof. Also disclosed are polynucleotides and recombinant expression vectors that encode these polypeptides, as well as methods for producing such proteins in selected recombinant host cells, and for using the compositions in a variety of diagnostic and analytical assays.

Abstract: Tau protein has a causative role in Alzheimer's disease and multiple other neurodegenerative disorders exhibiting tau histopathology collectively termed tauopathies. The primary function of tau protein is to facilitate assembly and maintenance of microtubules in neuronal axons. In the disease process tau protein becomes modified, loses its affinity to microtubules and accumulates in the cell body where it forms aggregates. The large neurofibrillary tangles formed from tau protein assembled into filaments were thought to be the pathological structure of tau. However, more recent work indicates that smaller, soluble oligomeric forms of tau are best associated with neuron loss and memory impairment. Here, novel compositions of tau oligomers and novel mechanisms for tau oligomer nucleation, extension and termination are taught.

Abstract: Disclosed are mammalian tau proteases, as well as proteolytically-active fragments, variants, and mutants thereof. Also disclosed are polynucleotides and recombinant expression vectors that encode these polypeptides, as well as methods for producing such proteins in selected recombinant host cells, and for using the compositions in a variety of diagnostic and analytical assays.

Abstract: Tau protein has a causative role in Alzheimer's disease and multiple other neurodegenerative disorders exhibiting tau histopathology collectively termed tauopathies. The primary function of tau protein is to facilitate assembly and maintenance of microtubules in neuronal axons. In the disease process tau protein becomes modified, loses its affinity to microtubules and accumulates in the cell body where it forms aggregates. The large neurofibrillary tangles formed from tau protein assembled into filaments were thought to be the pathological structure of tau. However, more recent work indicates that smaller, soluble oligomeric forms of tau are best associated with neuron loss and memory impairment. Here, novel compositions of tau oligomers and novel mechanisms for tau oligomer nucleation, extension and termination are taught.

Abstract: The invention relates to antibodies, antibody fragments and binding agents that specifically recognize oligomeric tau but do not bind to monomelic tau, fibrillar tau or non-disease associated forms of tau.

Abstract: Disclosed are mammalian tau proteases, as well as proteolytically-active fragments, variants, and mutants thereof. Also disclosed are polynucleotides and recombinant expression vectors that encode these polypeptides, as well as methods for producing such proteins in selected recombinant host cells, and for using the compositions in a variety of diagnostic and analytical assays.

Abstract: The present invention provides nanophotovoltaic devices having sizes in a range of about 50 nm to about 5 microns, and method of their fabrication. In some embodiments, the nanophotovoltaic device includes a semiconductor core, e.g., formed of silicon, sandwiched between two metallic layers, one of which forms a Schottky barrier junction with the semiconductor core and the other forms an ohmic contact therewith. In other embodiment, the nanophotovoltaic device includes a semiconductor core comprising a p-n junction that is sandwiched between two metallic layers forming ohmic contacts with the core.

Abstract: The present invention provides means and methods for producing surface-activated semiconductor nanoparticles suitable for in vitro and in vivo applications that can fluoresce in response to light excitation. Semiconductor nanostructures can be produced by generating a porous layer in semiconductor substrate comprising a network of nanostructures. Prior or subsequent to cleavage from the substrate, the nanostructures can be activated by an activation means such as exposing their surfaces to a plasma, oxidation or ion implantation. In some embodiments, the surface activation renders the nanostructures more hydrophilic, thereby facilitating functionalization of the nanoparticles for either in vitro or in vivo use.

Abstract: Tau protein has a causative role in Alzheimer's disease and multiple other neurodegenerative disorders exhibiting tau histopathology collectively termed tauopathies. The primary function of tau protein is to facilitate assembly and maintenance of microtubules in neuronal axons. In the disease process tau protein becomes modified, loses its affinity to microtubules and accumulates in the cell body where it forms aggregates. The large neurofibrillary tangles formed from tau protein assembled into filaments were thought to be the pathological structure of tau. However, more recent work indicates that smaller, soluble oligomeric forms of tau are best associated with neuron loss and memory impairment. Here, novel compositions of tau oligomers and novel mechanisms for tau oligomer nucleation, extension and termination are taught.