Abstract: Glycosylated peptides with glycosylation at or near the C-terminal domain of the peptide have an enhanced ability to cross the blood brain barrier (BBB) and/or enhanced half-lives. These glycosylated peptides may be used as drugs. For example, a PACAP peptide with a C-terminal glycosylation, e.g., in lieu of the terminal leucine, functions as a PAC1 agonist with enhanced ability to cross the BBB and with enhanced half-life. The peptides can have a pseudoproline residue with glycosylation at or near the C-terminal domain.

Abstract: Glycosylated peptides with glycosyiatiou at or near the C-terminal domain of the peptide have an enhanced ability to cross the blood brain barrier (BBB) and/or enhanced half-lives. These glycosylated peptides may be used as drugs. For example, a PACAP peptide with a C-terminal glycosylation, e.g., in lieu of the terminal leucine, functions as a PAC1 agonist with enhanced ability to cross the BBB and with enhanced half-life. The peptides can have a pseudoproline residue with glycosylation at or near the C-terminal domain.

Abstract: A glycosylated pleiotropic peptide pituitary adenylate cyclase-activating polypeptide (PACAP) which can both agonize PAC1 receptors, causing neuroprotective effects, and antagonize VPAC receptors, causing anti-inflammation in several models of acute neuronal damage and neurodegenerative diseases, including ALS, PD, migraines, and certain forms of dementia, is described. Also described is a method of relieving symptoms of ALS, PD, migraines, and certain forms of dementia, comprising administering to a subject in need thereof an effective amount of a glycosylated PACAP.

Abstract: A glycosylated pleiotropic peptide pituitary adenylate cyclase-activating polypeptide (PACAP) which can both agonize PAC1 receptors, causing neuroprotective effects, and antagonize VPAC receptors, causing anti-inflammation in several models of acute neuronal damage and neurodegenerative diseases, including ALS, PD, migraines, and certain forms of dementia, is described. Also described is a method of relieving symptoms of ALS, PD, migraines, and certain forms of dementia, comprising administering to a subject in need thereof an effective amount of a glycosylated PACAP.

Abstract: Methods and materials are provided for the production of glycosylated GLP-1 peptides that exhibit improved properties. The methods and materials of the present invention may be used for treatment of metabolic conditions, such as Syndrome X and diabetes.

Abstract: Methods and materials are provided for the production of glycosylated peptides that exhibit high affinity and specificity for delta opioid receptors. The methods and materials of the present invention may be used for treatment of conditions involving pain, such as acute pain and nociceptic pain, neuralgia and myalgia.

Abstract: Methods and materials are provided for the production of glycosylated peptides that exhibit high affinity and specificity for delta opioid receptors. The methods and materials of the present invention may be used for treatment of conditions involving pain, such as acute pain and nociceptic pain, neuralgia and myalgia.

Abstract: A stretching and exercise device has a first strap member having a pair of end portions, a second strap member having a pair of end portions, and a pair of resistance members connected between respective end portions of the first and second strap members. A third strap member has a pair of end portions attached to respective first and second surface portions of the second strap member. A fourth strap member is attached to a third surface portion of the second strap member different from the first and second surface portions thereof.

Abstract: Methods and materials are provided for the production of glycosylated peptides that exhibit high affinity and specificity for delta opioid receptors. The methods and materials of the present invention may be used for treatment of conditions involving pain, such as acute pain and nociceptic pain, neuralgia and myalgia.

Abstract: Glycopeptides which are amphipathic and capable of crossing the blood-brain-barrier are provided. The glycopeptides are useful for treating a variety of neurological an behavioral disorders.

Abstract: Peptides having improved bioavailability, especially analogs of enkephalins, with biousian properties which have two conformations or two conformation ensembles with different solubility properties.

Abstract: It is taught here that enkephalin peptides which are glycosylated with a disaccharide will be transported across the blood brain barrier and deliver analgesic effects superior to morphine when introduced into the bloodstream. Glycosylated peptides with disaccharides attached are superior to analogous peptides with either mono- or tri-saccharides attached.