Abstract: The inventors surprisingly found that neural stimulation caused the synthesis and degradation of proteins into peptides which were then secreted into the cell media within minutes of stimulation by a novel neural-specific and membrane bound proteasome (neuronal membrane proteasome or NMP) that is transmembrane in nature. These secreted, activity-induced, proteasomal peptides (SNAPPs) range in size from about 500 Daltons to about 3000 Daltons. Surprisingly none of the peptides appear to be those previously known to have any neuronal function. Moreover, these SNAPPs have stimulatory activity and are heretofore a new class of signaling molecules. Moreover, the NMP appears to play a highly significant role in aspects of neuronal signaling known to be critical for neuronal function.

Abstract: The inventors surprisingly found that neural stimulation caused the synthesis and degradation of proteins into peptides which were then secreted into the cell media within minutes of stimulation by a novel neural-specific and membrane bound proteasome (neuronal membrane proteasome or NMP) that is transmembrane in nature. These secreted, activity-induced, proteasomal peptides (SNAPPs) range in size from about 500 Daltons to about 3000 Daltons. Surprisingly none of the peptides appear to be those previously known to have any neuronal function. Moreover, these SNAPPs have stimulatory activity and are heretofore a new class of signaling molecules. Moreover, the NMP appears to play a highly significant role in aspects of neuronal signaling known to be critical for neuronal function.

Abstract: The inventors surprisingly found that neural stimulation caused the synthesis and degradation of proteins into peptides which were then secreted into the cell media within minutes of stimulation by a novel neural-specific and membrane bound proteasome (neuronal membrane proteasome or NMP) that is transmembrane in nature. These secreted, activity-induced, proteasomal peptides (SNAPPs) range in size from about 500 Daltons to about 3000 Daltons. Surprisingly none of the peptides appear to be those previously known to have any neuronal function. Moreover, these SNAPPs have stimulatory activity and are heretofore a new class of signaling molecules. Moreover, the NMP appears to play a highly significant role in aspects of neuronal signaling known to be critical for neuronal function.

Abstract: The inventors surprisingly found that neural stimulation caused the synthesis and degradation of proteins into peptides which were then secreted into the cell media within minutes of stimulation by a novel neural-specific and membrane bound proteasome (neuronal membrane proteasome or NMP) that is transmembrane in nature. These secreted, activity-induced, proteasomal peptides (SNAPPs) range in size from about 500 Daltons to about 3000 Daltons. Surprisingly none of the peptides appear to be those previously known to have any neuronal function. Moreover, these SNAPPs have stimulatory activity and are heretofore a new class of signaling molecules. Moreover, the NMP appears to play a highly significant role in aspects of neuronal signaling known to be critical for neuronal function.

Abstract: The invention provides methods of screening a compound that can increase spine/excitatory synapse formation and/or numbers. The compound is identified by contacting Ephexin5 with a test compound and selecting the compounds that inhibit Rho GEF activity of Ephexin5. Additionally, the invention also provides methods for increasing spine/excitatory synapse formation and/or numbers by contacting a neuron with an Ephexin5 inhibitor.

Abstract: The invention provides methods of screening a compound that can increase spine/excitatory synapse formation and/or numbers. The compound is identified by contacting Ephexin5 with a test compound and selecting the compounds that inhibit Rho GEF activity of Ephexin5. Additionally, the invention also provides methods for increasing spine/excitatory synapse formation and/or numbers by contacting a neuron with an Ephexin5 inhibitor.

Abstract: The invention provides methods of screening a compound that can increase spine/excitatory synapse formation and/or numbers. The compound is identified by contacting Ephexin5 with a test compound and selecting the compounds that inhibit Rho GEF activity of Ephexin5. Additionally, the invention also provides methods for increasing spine/excitatory synapse formation and/or numbers by contacting a neuron with an Ephexin5 inhibitor.

Abstract: The invention provides methods of screening a compound that can increase spine/excitatory synapse formation and/or numbers. The compound is identified by contacting Ephexin5 with a test compound and selecting the compounds that inhibit Rho GEF activity of Ephexin5. Additionally, the invention also provides methods for increasing spine/excitatory synapse formation and/or numbers by contacting a neuron with an Ephexin5 inhibitor.