The invention features a series of heterocyclic derivatives that inhibit tumor necrosis factor alpha (TNF-) induced necroptosis. The heterocyclic compounds of the invention are described by Formulas (I)-(VIII) and by Compounds (1)-(7), (13)-(26), (27)-(33), (48)-(57), and (58)-(70). These necrostatins are shown to inhibit TNF- induced necroptosis in FADD-deficient variant of human Jurkat T cells. The invention further features pharmaceutical compositions featuring necrostatins. The compounds and compositions of the invention may also be used to treat disorders where necroptosis is likely to play a substantial role.

The invention features a series of heterocyclic derivatives that inhibit tumor necrosis factor alpha (TNF-) induced necroptosis. The heterocyclic compounds of the invention are described by Formulas (I)-(VIII) and by Compounds (1)-(7), (13)-(26), (27)-(33), (48)-(57), and (58)-(70). These necrostatins are shown to inhibit TNF- induced necroptosis in FADD-deficient variant of human Jurkat T cells. The invention further features pharmaceutical compositions featuring necrostatins. The compounds and compositions of the invention may also be used to treat disorders where necroptosis is likely to play a substantial role.

The present invention provides bumetanide analogs and compositions comprising such analogs. The present invention also provides pharmaceutical compositions containing these bumetanide analogs and methods for their use. These analogs are believed useful for the treatment and/or prophylaxis of conditions that involve the Na.sup.+K.sup.+Cl.sup. co-transporter or GABA.sub.A receptor.

Methods and intermediates for synthesizing triethylenetetramine and salts thereof, as well as novel triethylenetetramine salts and their crystal structure, and triethylenetetramine salts of high purity.

Methods and intermediates for synthesizing triethylenetetramine and salts thereof, as well as novel triethylenetetramine salts and their crystal structure, and triethylenetetramine salts of high purity.

Provided herein are novel compositions and methods to inhibit Olig2 activity. The Olig2 inhibitors and methods of using the same are useful, inter alia, for treating cancer. In particular the Olig2 inhibitors may be used to treat glioblastoma. Further, provided are peptide compositions capable of inhibiting Olig 2.

The present invention provides bumetanide analogs and compositions comprising such analogs. The present invention also provides pharmaceutical compositions containing these bumetanide analogs and methods for their use. These analogs are particularly useful for the treatment and/or prophylaxis of conditions that involve the Na.sup.+K.sup.+Cl.sup. co-transporter or GABA.sub.A receptor including but not limited to addictive disorders, Alzheimer's Disease, anxiety disorders, ascites, autism, bipolar disorder, cancer, depression, endothelial corneal dystrophy, edema, epilepsy, glaucoma. Huntington's Disease, insomnia, ischemia, migraine, migraine with aura, neuropathic pain, nociceptive neuralgia, nociceptive pain, ocular diseases, pain, Parkinson's disease, personality disorders, postherpetic neuralgia, psychosis, schizophrenia, seizure disorders, tinnitus, and withdrawal syndromes.

The present invention provides bumetanide analogs and compositions comprising such analogs. The present invention also provides pharmaceutical compositions containing these bumetanide analogs and methods for their use. These analogs are particularly useful for the treatment and/or prophylaxis of conditions that involve the Na.sup.+K.sup.+Cl.sup. co-transporter or GABA.sub.A receptor including but not limited to addictive disorders, Alzheimer's Disease, anxiety disorders, ascites, autism, bipolar disorder, cancer, depression, endothelial corneal dystrophy, edema, epilepsy, glaucoma. Huntington's Disease, insomnia, ischemia, migraine, migraine with aura, neuropathic pain, nociceptive neuralgia, nociceptive pain, ocular diseases, pain, Parkinson's disease, personality disorders, postherpetic neuralgia, psychosis, schizophrenia, seizure disorders, tinnitus, and withdrawal syndromes.

Sulfonium and iodonium salts of a carboxylate having an aromatic ring to which a nitrogen-containing alkyl or cyclic structure is attached are novel. The onium salt functions as an acid diffusion controlling agent in a resist composition, enabling to form a pattern of good profile with high resolution, improved MEF, LWR and DOF.

Sulfonium and iodonium salts of a carboxylate having an aromatic ring to which a nitrogen-containing alkyl or cyclic structure is attached are novel. The onium salt functions as an acid diffusion controlling agent in a resist composition, enabling to form a pattern of good profile with high resolution, improved MEF, LWR and DOF.