The present invention relates to chemical compounds that selectively inhibit glucose transporter 1 (GLUT1), to methods of preparing said compounds, to pharmaceutical compositions and combinations comprising said compounds, to the use of said compounds for manufacturing a pharmaceutical composition for the treatment or prophylaxis of a disease, as well as to intermediate compounds useful in the preparation of said compounds.

Provided are a therapeutic agent and a pharmaceutical composition exerting an excellent prophylactic or therapeutic effect on fibrosis and symptoms associated with fibrosis. The therapeutic agent for fibrosis comprises 4-[2-fluoro-4-[[[(2-phenylacetyl)amino]thioxomethyl]amino]-phenoxy]-7-methoxy-N-methyl-6-quinolinecarboxamide or a salt thereof as an active ingredient.

The present invention discloses a nitroxoline derivative, a preparation method therefor, and use thereof. Specifically, the present discloses a compound as represented by general formula (I), a preparation method therefor, a pharmaceutical composition containing same, and use thereof in treating infectious diseases or cancers. The compound of the present invention has excellent anti-tumor activity and antibacterial activity, and can be developed into a drug for treating tumors and infectious diseases. The definition of each group in general formula (I) is the same as that in the description.

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The present invention discloses a nitroxoline derivative, a preparation method therefor, and use thereof. Specifically, the present discloses a compound as represented by general formula (I), a preparation method therefor, a pharmaceutical composition containing same, and use thereof in treating infectious diseases or cancers. The compound of the present invention has excellent anti-tumor activity and antibacterial activity, and can be developed into a drug for treating tumors and infectious diseases. The definition of each group in general formula (I) is the same as that in the description.

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A tumor stroma imaging agent with a chemical structural formula (I):

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is provided, where R is hydrogen or fluorine. Compared with the prior art, the tumor stroma imaging agent exhibits significant affinity for fibroblast activation protein (FAP), high uptake for a malignant tumor with high FAP expression in a tumor stroma, and high sensitivity and specificity for the diagnosis of a malignant tumor, and is not prone to false positives. Therefore, the tumor stroma imaging agent can be effectively and safely used for the diagnosis and treatment of various malignant tumors with a prolonged half-life and an extended window period, which is conducive to clinical application.

This invention relates to agents that are inhibitors or activators of variant forms of endogenous proteins and novel methods of identifying such variants. Of particular interest are inhibitors and activators of endogenous protein variants, encoded by genes which have mutated, which variants often arise or are at least first identified as having arisen following exposure to a chemical agent which is known to be an inhibitor or activator of the corresponding unmutated endogenous protein.

This invention relates to agents that are inhibitors or activators of variant forms of endogenous proteins and novel methods of identifying such variants. Of particular interest are inhibitors and activators of endogenous protein variants, encoded by genes which have mutated, which variants often arise or are at least first identified as having arisen following exposure to a chemical agent which is known to be an inhibitor or activator of the corresponding unmutated endogenous protein.

This invention relates to agents that are inhibitors or activators of variant forms of endogenous proteins and novel methods of identifying such variants. Of particular interest are inhibitors and activators of endogenous protein variants, encoded by genes which have mutated, which variants often arise or are at least first identified as having arisen following exposure to a chemical agent which is known to be an inhibitor or activator of the corresponding unmutated endogenous protein.

This invention relates to agents that are inhibitors or activators of variant forms of endogenous proteins and novel methods of identifying such variants. Of particular interest are inhibitors and activators of endogenous protein variants, encoded by genes which have mutated, which variants often arise or are at least first identified as having arisen following exposure to a chemical agent which is known to be an inhibitor or activator of the corresponding unmutated endogenous protein.

This invention relates to agents that are inhibitors or activators of variant forms of endogenous proteins and novel methods of identifying such variants. Of particular interest are inhibitors and activators of endogenous protein variants, encoded by genes which have mutated, which variants often arise or are at least first identified as having arisen following exposure to a chemical agent which is known to be an inhibitor or activator of the corresponding unmutated endogenous protein.