The present invention relates to alkoxyamines of general formula (I), and to compounds of general formula (IIa), (IIb), (IIc), (IId), IIe), (IIf) or (IIg), as such and for the treatment of cancers. ##STR00001##

The present invention relates to alkoxyamines of general formula (I), and to compounds of general formula (IIa), (IIb), (IIc), (IId), IIe), (IIf) or (IIg), as such and for the treatment of cancers. ##STR00001##

The present invention relates to compounds and their use in the prophylactic and/or therapeutic treatment of pulmonary fibrosis and/or related conditions.

-Substituted -amino acids, -substituted -amino acid derivatives, and -substituted -amino acid analogs and (bio)isosteres and their use as chemotherapeutic agents are disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres are selective LAT1/4F2hc substrates and exhibit rapid uptake and retention in tumors expressing the LAT1/4F2hc transporter. Methods of synthesizing the -substituted -amino acid derivatives and -substituted -amino acid analogs and methods of using the compounds for treating cancer are also disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs exhibit selective uptake in tumor cells expressing the LAT1/4F2hc transporter and accumulate in cancerous cells when administered to a subject in vivo. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres exhibit cytotoxicity toward several tumor types.

-Substituted -amino acids, -substituted -amino acid derivatives, and -substituted -amino acid analogs and (bio)isosteres and their use as chemotherapeutic agents are disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres are selective LAT1/4F2hc substrates and exhibit rapid uptake and retention in tumors expressing the LAT1/4F2hc transporter. Methods of synthesizing the -substituted -amino acid derivatives and -substituted -amino acid analogs and methods of using the compounds for treating cancer are also disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs exhibit selective uptake in tumor cells expressing the LAT1/4F2hc transporter and accumulate in cancerous cells when administered to a subject in vivo. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres exhibit cytotoxicity toward several tumor types.

Disclosed in the present invention is a preparation method for a tetra-substituted allenoic acid compound based on a palladium catalytic system, that is, a highly optically active allenoic acid compound having axial chirality is directly constructed in one step by reacting tertiary propargyl alcohol, carbon monoxide and water in an organic solvent under the action of a palladium catalyst, a chiral bisphosphine ligand, an organophosphoric acid, and an organic additive, and the theoretical yield can reach 100%. The method of the present invention is simple to operate, the raw materials and reagents are readily available, the reaction conditions are mild, the substrate universality is wide, the functional group compatibility is good, the reaction has high enantioselectivity (77%?96% ee), and the reaction is well compatible with complex natural products or substrates of a drug molecular skeleton. The highly optically active allenoic acid compound obtained by the present invention can be used as an important intermediate for constructing a ?-butyrolactone compound containing a tetra-substituted chiral quaternary carbon center, tetra-substituted allenol, tetra-substituted allenal, tetra-substituted allenyl ketone, tetra-substituted allenami de and other compounds.

-Substituted -amino acids, -substituted -amino acid derivatives, and -substituted -amino acid analogs and (bio)isosteres and their use as chemotherapeutic agents are disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres are selective LAT1/4F2hc substrates and exhibit rapid uptake and retention in tumors expressing the LAT1/4F2hc transporter. Methods of synthesizing the -substituted -amino acid derivatives and -substituted -amino acid analogs and methods of using the compounds for treating cancer are also disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs exhibit selective uptake in tumor cells expressing the LAT1/4F2hc transporter and accumulate in cancerous cells when administered to a subject in vivo. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres exhibit cytotoxicity toward several tumor types.

-Substituted -amino acids, -substituted -amino acid derivatives, and -substituted -amino acid analogs and (bio)isosteres and their use as chemotherapeutic agents are disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres are selective LAT1/4F2hc substrates and exhibit rapid uptake and retention in tumors expressing the LAT1/4F2hc transporter. Methods of synthesizing the -substituted -amino acid derivatives and -substituted -amino acid analogs and methods of using the compounds for treating cancer are also disclosed. The -substituted -amino acid derivatives and -substituted -amino acid analogs exhibit selective uptake in tumor cells expressing the LAT1/4F2hc transporter and accumulate in cancerous cells when administered to a subject in vivo. The -substituted -amino acid derivatives and -substituted -amino acid analogs and (bio)isosteres exhibit cytotoxicity toward several tumor types.

The present disclosure provides processes for preparing a compound of formula (I) from a compound of formula (II) via two steps: 6a) contacting 2-(aminooxy)ethanol (i.e., formula (K)) or a salt thereof (e.g., formula (K-1)), with abase and a silylating agent to form a first mixture including an O-silyl protected compound of formula (K); and 6b) adding a second mixture including a compound of formula (II) or a salt therefore, to the first mixture of step 6a) to form the compound represented by formula (I): The present processes only utilize less than 1.5 equivalents of 2-(aminooxy)ethanol or the salt thereof relative to the compound of formula (II), and therefore reduce the burden to remove excess 2-(aminooxy)ethanol on a large manufacturing scale. Also provided are processes for preparing the compound of formula (K) or (K-1).

A crystalline mono hydrochloride salt of (4S,4aS,5aR, 12aS)-4-dimethylamino-3,10,12,12a-tetrahydroxy-7-[(methoxy(methyl)amino)-methyl]-1, 11-dioxo-1,4,4a,5,5a,6,11,12a-octahydro-naphthacene-2-carboxylic acid amide is disclosed having improved stability. In addition, a crystalline mono mesylate salt and crystalline mono sulfate salt of (4S,4aS,5aR,12aS)-4-dimethylamino-3, 10,12,12a-tetrahydroxy-7-[(methoxy(methyl)amino)-methyl]-1,11-dioxo-1, 4,4a,5,5a,6,11,12a-octahydro-naphthacene-2-carboxylic acid amide are also disclosed having improved stability. A pharmaceutical composition containing the crystalline salts and methods of treating inflammatory skin disorders and bacterial infections comprising administering the crystalline salts are also disclosed.