Provided herein are methods and formulations for reducing viability of a cancer or enhancing susceptibility of a cancer to an anti-cancer agent. The method includes administering to the subject an effective amount of an anti-parasitic agent and an autophagy inhibitor to the subject. Additionally or optionally, the method further includes administering to the subject the anti-cancer agent. Also provided herein are formulations for the treatment of cancers, particularly cancers that are unresponsive to anti-cancer agents. The formulation includes at least two agents selected from the group consisting of an anti-parasitic agent, an autophagy inhibitor and an HDAC inhibitor; and a pharmaceutically acceptable excipient.

Provided herein are methods of treating a dysmyelinating/demyelinating disease or condition in a patient in need thereof. The methods comprise restoring Qki-PPARβ-RXRα-dependent lipid metabolism in myelin. For example, the methods comprise administering a PPARβ agonist or an RXR agonist to the patient.

The present application relates to the treatment of nematode infections. For example, the application relates to the use of compounds of Formula (I) and/or (II) as defined herein for treatment of a nematode infection or a disease, disorder or condition arising from a nematode infection: ##STR00001##

The present application relates to the treatment of nematode infections. For example, the application relates to the use of compounds of Formula (I) and/or (II) as defined herein for treatment of a nematode infection or a disease, disorder or condition arising from a nematode infection: ##STR00001##

The instant invention relates to therapeutic combinations of LSD1 inhibitors and one or more other active pharmaceutical ingredient(s) or pharmaceutically acceptable salts thereof. The combinations are particularly useful for treating neoplastic diseases, such as cancer, particularly small cell lung cancer (SCLC).

The instant invention relates to therapeutic combinations of LSD1 inhibitors and one or more other active pharmaceutical ingredient(s) or pharmaceutically acceptable salts thereof. The combinations are particularly useful for treating neoplastic diseases, such as cancer, particularly small cell lung cancer (SCLC).

The instant invention relates to therapeutic combinations of LSD1 inhibitors and one or more other active pharmaceutical ingredient(s) or pharmaceutically acceptable salts thereof. The combinations are particularly useful for treating neoplastic diseases, such as cancer, particularly small cell lung cancer (SCLC).

The present invention provides a novel use and methods comprising antibodies, or antigen-binding fragments thereof, which bind to a CCR7 receptor for use as a novel combination therapy with a BTK inhibitor and/or a Bcl-2 inhibitor in treatment of hyperproliferative blood malignancies, preferably in B-cell lymphomas, such as CLL. The combination can be used as first line, or in naïve patients not treated before with a BTK inhibitor and/or Bcl-2 inhibitor, or in patients with a BTK-inhibitor and/or Bcl-2-inhibitor refractory/relapsed disease. The antibodies and antigen-binding fragments are capable of selectively depleting ex vivo or in vitro malignant cells expressing CCR7 and are capable of impairing/blocking migration of said tumor cells towards CCR7 ligands. These effects are not related to previous or contemporary treatments with a BTK inhibitor and/or a Bcl-2 inhibitor. Similarly, the efficacy of the antibodies is not affected in patients that have relapsed/refractory disease. The use of said antibodies as a monotherapy or as a combination with a BTK inhibitor and/or a Bcl-2 inhibitor for depleting, killing and impairing/blocking migration and activation of tumor cells expressing CCR7 cells is disclosed, thus providing an alternative therapy treating hyperproliferative blood cancers.

The present invention provides a novel use and methods comprising antibodies, or antigen-binding fragments thereof, which bind to a CCR7 receptor for use as a novel combination therapy with a BTK inhibitor and/or a Bcl-2 inhibitor in treatment of hyperproliferative blood malignancies, preferably in B-cell lymphomas, such as CLL. The combination can be used as first line, or in naïve patients not treated before with a BTK inhibitor and/or Bcl-2 inhibitor, or in patients with a BTK-inhibitor and/or Bcl-2-inhibitor refractory/relapsed disease. The antibodies and antigen-binding fragments are capable of selectively depleting ex vivo or in vitro malignant cells expressing CCR7 and are capable of impairing/blocking migration of said tumor cells towards CCR7 ligands. These effects are not related to previous or contemporary treatments with a BTK inhibitor and/or a Bcl-2 inhibitor. Similarly, the efficacy of the antibodies is not affected in patients that have relapsed/refractory disease. The use of said antibodies as a monotherapy or as a combination with a BTK inhibitor and/or a Bcl-2 inhibitor for depleting, killing and impairing/blocking migration and activation of tumor cells expressing CCR7 cells is disclosed, thus providing an alternative therapy treating hyperproliferative blood cancers.

The present invention relates to an antifungal composition containing a carbazole compound as an active ingredient. The carbazole compound according to the present invention inhibits the growth of not only Candida but also fungi such as yeast, and neutralizes the pathogenicity of Candida by inhibiting morphological transformation thereof. Thus, the carbazole compound is very useful as an antifungal composition capable of treating Candida infection.