The present invention relates to novel anthracycline derivatives comprising two oxazolidine cycles and the preparation of said anthracycline derivatives. Furthermore, antibody-drug conjugates (ADCs) comprising the novel anthracycline derivatives and the use of such ADCs in the prevention and treatment of cancer are disclosed.

The present invention relates to novel anthracycline derivatives comprising two oxazolidine cycles and the preparation of said anthracycline derivatives. Furthermore, antibody-drug conjugates (ADCs) comprising the novel anthracycline derivatives and the use of such ADCs in the prevention and treatment of cancer are disclosed.

A conjugate containing a fluorescent chromophore, which has any structure selected from C1 to C3. The conjugate containing the fluorescent chromophore provided by the described embodiments includes one fluorescent chromophore and two highly reactive groups R1 and R2 linked to the fluorescent chromophore by a covalent bond. The fluorescent chromophore in the conjugate initially has no or only weak fluorescence emission capability, and only after the two highly reactive groups react together with the corresponding molecule, the fluorescent chromophore has strong fluorescence emission. Therefore, the efficiency of conjugation of drug molecules to targeting molecules can be monitored in situ by the infrared fluorescence emission intensity and applied to the target-mediated drug delivery.

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The present invention provides engineered glycosyltransferase (GT) enzymes, polypeptides having GT activity, and polynucleotides encoding these enzymes, as well as vectors and host cells comprising these polynucleotides and polypeptides. The present invention provides engineered sucrose synthase (SuS) enzymes, polypeptides having SuS activity, and polynucleotides encoding these enzymes, as well as vectors and host cells comprising these polynucleotides and polypeptides. The present invention also provides compositions comprising the GT enzymes and methods of using the engineered GT enzymes to make products with -glucose linkages. The present invention further provides compositions and methods for the production of rebaudiosides (e.g., rebaudioside M, rebaudioside A, rebaudioside I, and rebaudioside D). The present invention also provides compositions comprising the SuS enzymes and methods of using them. Methods for producing GT and SuS enzymes are also provided.

The present invention provides engineered glycosyltransferase (GT) enzymes, polypeptides having GT activity, and polynucleotides encoding these enzymes, as well as vectors and host cells comprising these polynucleotides and polypeptides. The present invention provides engineered sucrose synthase (SuS) enzymes, polypeptides having SuS activity, and polynucleotides encoding these enzymes, as well as vectors and host cells comprising these polynucleotides and polypeptides. The present invention also provides compositions comprising the GT enzymes and methods of using the engineered GT enzymes to make products with -glucose linkages. The present invention further provides compositions and methods for the production of rebaudiosides (e.g., rebaudioside M, rebaudioside A, rebaudioside I, and rebaudioside D). The present invention also provides compositions comprising the SuS enzymes and methods of using them. Methods for producing GT and SuS enzymes are also provided.

The present disclosure generally provides compounds useful for treating cancer. In some aspects, the disclosure provides small-molecule cytotoxins that are chemically modified to include one or more moieties that include hydrophobic portions. In some embodiments, the disclosure provides small-molecule cytotoxins that are chemically modified with fatty acid-containing moieties. In some aspects, the disclosure provides compositions, such as pharmaceutical compositions, that include such modified small-molecule cytotoxins and a protein. In some embodiments, the protein is albumin or an albumin mimetic. Further, the disclosure provides various uses of these compounds and compositions.

The present disclosure generally provides compounds useful for treating cancer. In some aspects, the disclosure provides small-molecule cytotoxins that are chemically modified to include one or more moieties that include hydrophobic portions. In some embodiments, the disclosure provides small-molecule cytotoxins that are chemically modified with fatty acid-containing moieties. In some aspects, the disclosure provides compositions, such as pharmaceutical compositions, that include such modified small-molecule cytotoxins and a protein. In some embodiments, the protein is albumin or an albumin mimetic. Further, the disclosure provides various uses of these compounds and compositions.

The present invention relates to a stable crystalline monohydrate of epirubicin hydrochloride having water content in the range between 2.7% and 3.5% (w/w) and being devoid of residual solvents as well as to a corresponding method for its production. The method comprises: (a) adding at least a first solvent and at least a second solvent to epirubicin hydrochloride, wherein the first solvent is a linear or branched C.sub.4 to C.sub.5 alcohol, and the second solvent is a linear or branched C.sub.2 to C.sub.3 alcohol; (b) adjusting in the solution obtained the water content to an amount in the range between 7% and 12% (w/w); and (c) heating the mixture to a temperature of 70 C. to 90 C. in order to allow crystallization.

The present invention relates to a stable crystalline monohydrate of epirubicin hydrochloride having water content in the range between 2.7% and 3.5% (w/w) and being devoid of residual solvents as well as to a corresponding method for its production. The method comprises: (a) adding at least a first solvent and at least a second solvent to epirubicin hydrochloride, wherein the first solvent is a linear or branched C.sub.4 to C.sub.5 alcohol, and the second solvent is a linear or branched C.sub.2 to C.sub.3 alcohol; (b) adjusting in the solution obtained the water content to an amount in the range between 7% and 12% (w/w); and (c) heating the mixture to a temperature of 70 C. to 90 C. in order to allow crystallization.

2-pyrrolino-13-deoxyanthracycline derivatives, medical uses thereof, and a process for making them. A 2-pyrrolino-13-deoxyanthracycline and a 13-deoxyanthracycline can be administered to a patient simultaneously or sequentially in amounts to produce a synergistic therapeutic effect with increased potency and efficacy, compared to the sum of the effects of each drug when administered alone. A composition or preparation of a 2-pyrrolino-13-deoxyanthracycline and a 13-deoxyanthracycline for producing a potent anticancer therapeutic effect is also provided.