Patent application number | Description | Published |
20130224821 | Light-Activated Chimeric Opsins and Methods of Using the Same - Provided herein are compositions comprising light-activated chimeric proteins expressed on plasma membranes and methods of using the same to selectively depolarize excitatory or inhibitory neurons. | 08-29-2013 |
20130288365 | Cell Line, System and Method for Optical-Based Screening of Ion-Channel Modulators - A variety of applications, systems, methods and constructs are implemented for use in connection with screening of ion-channel modulators. Consistent with one such system, drug candidates are screened to identify their effects on cell membrane ion channels and pumps. The system includes screening cells having light responsive membrane ion switches, voltage-gated ion switches and fluorescence producing voltage sensors. A chemical delivery device introduces the drug candidates to be screened. An optical delivery device activates the light responsive ion switches. An optical sensor monitors fluorescence produced by the voltage sensors. A processor processes data received from the optical sensor. A memory stores the data received from the optical sensor. | 10-31-2013 |
20130289386 | Optogenetic Magnetic Resonance Imaging - Disclosed herein are systems and methods involving the use of magnetic resonance imaging and optogenetic neural stimulation. Aspects of the disclosure include modifying a target neural cell population in a first region of a brain to express light-responsive molecules. Using a light pulse, the light-responsive molecules in the target neural cell population are stimulated. Multiple regions of the brain are scanned via magnetic resonance imaging. The scans allow for observation of a neural reaction in response to the stimulation in at least one of the multiple regions of the brain. | 10-31-2013 |
20130289669 | Optical Tissue Interface Method and Apparatus For Stimulating Cells - In one example, a system electrically stimulates target cells of a living animal using an elongated structure, a modulation circuit and a light pathway such as provided by an optical fiber arrangement. The elongated structure is for insertion into a narrow passageway in the animal such that an end of the elongated structure is sufficiently near the target cells to deliver stimulation thereto. The modulation circuit is for modulating the target cells while the elongated structure is in the narrow passageway, where the modulation circuit is adapted to deliver viral vectors through the elongated structure for expressing light responsive proteins in the target cells. The light pathway is used for stimulating the target cells by delivering light to the light-responsive proteins in the target cells. | 10-31-2013 |
20130289675 | Materials and Approaches for Optical Stimulation of the Peripheral Nervous System - A variety of methods, devices, systems and arrangements are implemented for stimulation of the peripheral nervous system. Consistent with one embodiment of the present invention, method is implemented in which light-responsive channels or pumps are engineered in a set of motor units that includes motor units of differing physical volumes. Optical stimuli are also provided to the light-responsive channels or pumps at an optical intensity that is a function of the size of motor units to be recruited. In certain implementations, the intensity of the optical stimuli is increased so as to recruit increasingly larger motor units. | 10-31-2013 |
20130289676 | Methods, Systems and Devices for Optical Stimulation of Target Cells Using an Optical Transmission Element - Stimulation of target cells using light, e.g., in vivo, is implemented using a variety of methods and devices. In one such device, target cells are stimulated using an implantable device. The device includes a light source for producing light from electrical power. An optical transmission element is made from a material that is substantially transparent to the light from the light source. This transmission element substantially encases the light source at a proximal end. The transmission element delivers light from the light source to a distal end. The shape and size of the transmission element facilitates implanting of the element within a patient. A fixation portion physically couples to the optical transmission element and secures the device to the patient. A heat dissipation portion removes heat from the near optical transmission element and the light source and dissipates the removed heat through the fixation portion. | 10-31-2013 |
20130295015 | Optically-Controlled CNS Dysfunction - Provided herein are animals expressing light-responsive opsin proteins in the basal lateral amygdala of the brain and methods for producing the same wherein illumination of the light-responsive opsin proteins causes anxiety in the animal. Also provided herein are methods for alleviating and inducing anxiety in an animal as well as methods for screening for a compound that alleviates anxiety in an animal. | 11-07-2013 |
20130296406 | Optically-Based Stimulation of Target Cells and Modifications Thereto - Stimulation of target cells using light, e.g., in vivo or in vitro, is implemented using a variety of methods and devices. One example involves a vector for delivering a light-activated molecule comprising a nucleic acid sequence that codes for light-activated molecule. The light-activated molecule includes a modification to a location near the all-trans retinal Schiff base, e.g., to extends the duration time of the open state. Other aspects and embodiments are directed to systems, methods, kits, compositions of matter and molecules for ion channels or pumps or for controlling currents in a cell (e.g., in vivo or in vitro environments). | 11-07-2013 |
20130317569 | Optogenetic Control of Reward-Related Behaviors - Provided herein are compositions and methods for disrupting at least one reward-related behavior in an individual through the use of light-responsive opsin proteins used to control the polarization state of the cholinergic interneurons of the nucleus accumbens or the striatum. | 11-28-2013 |
20130317575 | Implantable Optical Stimulators - Various systems and methods are implemented for in vivo use in a living animal. One such method involves stimulating target cells having light-responsive proteins and includes providing an elongated light-delivery structure in a narrow passageway in the animal, the elongated light-delivery structure having separately-activatable light sources located along the length of the elongated light-delivery structure. The method also includes activating less than all the light sources to deliver light to light-responsive proteins adjacent to the activated light sources along the length of the elongated light-delivery structure, thereby stimulating target cells in vivo. | 11-28-2013 |
20130330816 | Apparatus and Methods for Controlling Cellular Development - According to one aspect and example, a method for facilitating cellular interactions in biological tissue provides controllable activation of a selected type of stem cell among a plurality of cell types present in the tissue. The method includes various steps including the introduction of a microbial opsin into a region of the tissue that includes a selected type of stem cell, by expressing the microbial opsin the stem cell. A light source is then introduced near the stem cell, and the light source is used to controllably activate the light source to direct pulses of illumination from the light source to the selected type of stem cell, for selectively controlling the growth and development of the stem cell in a manner that is independent of the growth and development of the other types of cells. | 12-12-2013 |
20130331441 | Cell Line, System and Method for Optical Control of Secondary Messengers - A variety of methods, devices and compositions are implemented for light-activated molecules. One such method is implemented for generating secondary messengers in a cell. A nucleotide sequence for expressing a chimeric light responsive membrane protein (e.g., rhodopsin) is modified with one or more heterologous receptor subunits {e.g., an adrenergic receptor (alpha1, Beta2)}. The light responsive membrane protein is expressed in a cell for producing a secondary messenger in response to light. | 12-12-2013 |
20130343998 | Control and Characterization of Memory Function - Provided herein are devices and methods for reversibly controlling memory function in living non-human animals. Some variations of methods for affecting memory function comprise temporarily inhibiting neurons of the hippocampus (e.g., neurons of the dorsal CA1 field of the hippocampus) during the acquisition or retrieval of a memory. Alternatively or additionally, methods for reversibly affecting memory function comprise inhibiting neurons of the amygdala (e.g. basolateral amygdala) and/or neurons of the cingulate cortex (e.g., anterior cingulated cortex). Methods for disrupting the formation and recall of memories by inhibiting excitatory neurons expressing light-activated proteins are disclosed herein. One or more methods for reversibly affecting memory function described herein can be used to evaluate the effectiveness of pharmacological agents in treating PTSD and/or various memory disorders. | 12-26-2013 |
20130347137 | Stabilized Step Function Opsin Proteins and Methods of Using the Same - Provided herein are compositions comprising non-human animals comprising neurons expressing stabilized step function opsin proteins on neural plasma membranes and methods of using the same to selectively depolarize neurons residing in microcircuits of the pre-frontal cortex to affect one or more social behaviors, communications, and/or conditioned behaviors in the non-human animal. | 12-26-2013 |
20140082758 | Control and Characterization of Psychotic States - Provided herein are methods of inducing psychosis in animals using light-responsive opsins and methods of identifying or screening compounds that may be useful in treating psychosis. | 03-20-2014 |
20140113367 | Systems, Methods and Compositions for Optical Stimulation of Target Cells - Stimulation of target cells using light, e.g., in vivo or in vitro, is implemented using a variety of methods and devices. One example involves a vector for delivering a light-activated NpHR-based molecule comprising a nucleic acid sequence that codes for light-activated NpHR-based molecule and a promoter. Either a high expression of the molecule manifests a toxicity level that is less than about 75%, or the light-activated NpHR-based proteins are expressed using at least two NpHR-based molecular variants. Each of the variants characterized in being useful for expressing a light-activated NpHR-based molecule that responds to light by producing an inhibitory current to dissuade depolarization of the neuron. Other aspects and embodiments are directed to systems, methods, kits, compositions of matter and molecules for ion pumps or for controlling inhibitory currents in a cell (e.g., in in vivo and in vitro environments). | 04-24-2014 |
20140148880 | Upconversion of Light for Use in Optogenetic Methods - Provided herein are compositions comprising lanthanide-doped nanoparticles which upconvert electromagnetic radiation from infrared or near infrared wavelengths into the visible light spectrum. Also provided herein are methods activating light-responsive opsin proteins expressed on plasma membranes of neurons and selectively altering the membrane polarization state of the neurons using the light delivered by the lanthanide-doped nanoparticles. | 05-29-2014 |
20140235826 | OPTICALLY-BASED STIMULATION OF TARGET CELLS AND MODIFICATIONS THERETO - Stimulation of target cells using light, e.g., in vivo or in vitro, is implemented using a variety of methods and devices. One example involves a vector for delivering a light-activated molecule comprising a nucleic acid sequence that codes for light-activated molecule. The light-activated molecule includes a modification to a location near the all-trans retinal Schiff base, e.g., to extends the duration time of the open state. Other aspects and embodiments are directed to systems, methods, kits, compositions of matter and molecules for ion channels or pumps or for controlling currents in a cell (e.g., in in vivo and in vitro environments). | 08-21-2014 |
20140309705 | System for Optical Stimulation of Target Cells - Various systems and methods are implemented for controlling stimulus of a cell. One such method is implemented for optical stimulation of a cell expressing a NpHR ion pump. The method includes the step of providing a sequence of stimuli to the cell. Each stimulus increases the probability of depolarization events occurring in the cell. Light is provided to the cell to activate the expressed NpHR ion pump, thereby decreasing the probability of depolarization events occurring in the cell. | 10-16-2014 |
20140323849 | Optogenetic Magnetic Resonance Imaging - Disclosed herein are systems and methods involving the use of magnetic resonance imaging and optogenetic neural stimulation. Aspects of the disclosure include modifying a target neural cell population in a first region of a brain to express light-responsive molecules. Using a light pulse, the light-responsive molecules in the target neural cell population are stimulated. Multiple regions of the brain are scanned via magnetic resonance imaging. The scans allow for observation of a neural reaction in response to the stimulation in at least one of the multiple regions of the brain. | 10-30-2014 |
20140358067 | Systems, Methods and Compositions for Optical Stimulation of Target Cells - Methods, systems and devices are implemented in connection with light-responsive ion channel molecules. One such method is implemented using a light-activated ion channel molecule that responds to a light stimulus. The method includes engineering the light-activated ion channel molecule in a cell; and activating the ion channel molecule, in response to light stimulus that is provided to the ion channel molecule and that has properties that do not activate a ChR2 ion channel, to allow ions to pass through the light-activated ion channel molecule. | 12-04-2014 |
20150072394 | Opsin Polypeptides and Methods of Use Thereof - The present disclosure provides opsins, including variant opsins with increased activity and/or increased trafficking to the plasma membrane. The opsins are useful in therapeutic and screening applications, which are also provided. | 03-12-2015 |