The present disclosure relates to a chimeric antigen receptor, a nucleic acid, a chimeric antigen receptor expression plasmid, a chimeric antigen receptor expressing cell, a pharmaceutical composition for treating cancer, and use of the chimeric antigen receptor expressing cell. The chimeric antigen receptor is specific to human leukocyte antigen G. The nucleic acid encodes the chimeric antigen receptor. The chimeric antigen receptor expression plasmid expresses the chimeric antigen receptor. The chimeric antigen receptor expressing cell is obtained by transducing the chimeric antigen receptor into an immune cell. The pharmaceutical composition for treating cancer includes the chimeric antigen receptor expressing cell and a pharmaceutically acceptable carrier.

The present disclosure relates to a chimeric antigen receptor, a nucleic acid, a chimeric antigen receptor expression plasmid, a chimeric antigen receptor expressing cell, a pharmaceutical composition for treating cancer, and use of the chimeric antigen receptor expressing cell. The chimeric antigen receptor is specific to human leukocyte antigen G. The nucleic acid encodes the chimeric antigen receptor. The chimeric antigen receptor expression plasmid expresses the chimeric antigen receptor. The chimeric antigen receptor expressing cell is obtained by transducing the chimeric antigen receptor into an immune cell. The pharmaceutical composition for treating cancer includes the chimeric antigen receptor expressing cell and a pharmaceutically acceptable carrier.

The present disclosure relates to a chimeric antigen receptor, a nucleic acid, a chimeric antigen receptor expression plasmid, a chimeric antigen receptor expressing cell, a pharmaceutical composition for treating cancer, and use of the chimeric antigen receptor expressing cell. The chimeric antigen receptor is specific to human leukocyte antigen G. The nucleic acid encodes the chimeric antigen receptor. The chimeric antigen receptor expression plasmid expresses the chimeric antigen receptor. The chimeric antigen receptor expressing cell is obtained by transducing the chimeric antigen receptor into an immune cell. The pharmaceutical composition for treating cancer includes the chimeric antigen receptor expressing cell and a pharmaceutically acceptable carrier.

Described herein is a method for reducing tumor volume in a subject, the method including the steps of administering a cancer treatment (administration of at least one chemotherapeutic agent and/or application of radiation) to the subject in conjunction with the administration of choline, a choline metabolite, a choline precursor molecule, or a combination thereof. In another aspect, the disclosure relates to a method for enhancing cognitive response in a subject during cancer treatment, the method including the steps of administering cancer treatment (administration of at least one chemotherapeutic agent and/or application of radiation) to the subject in conjunction with the administration of choline, a choline metabolite, a choline precursor molecule, or a combination thereof. In still another aspect, choline, a choline metabolite, a choline precursor molecule, or a combination thereof can be administered in the form of a choline-enriched diet, a choline supplement, or a combination thereof. In some aspects, the method also enhances the effectiveness of chemotherapy.

Described herein is a method for reducing tumor volume in a subject, the method including the steps of administering a cancer treatment (administration of at least one chemotherapeutic agent and/or application of radiation) to the subject in conjunction with the administration of choline, a choline metabolite, a choline precursor molecule, or a combination thereof. In another aspect, the disclosure relates to a method for enhancing cognitive response in a subject during cancer treatment, the method including the steps of administering cancer treatment (administration of at least one chemotherapeutic agent and/or application of radiation) to the subject in conjunction with the administration of choline, a choline metabolite, a choline precursor molecule, or a combination thereof. In still another aspect, choline, a choline metabolite, a choline precursor molecule, or a combination thereof can be administered in the form of a choline-enriched diet, a choline supplement, or a combination thereof. In some aspects, the method also enhances the effectiveness of chemotherapy.

The invention provides compositions comprising a single protein having one or more molecules of a pharmaceutical agent tightly bound therein. The compositions are useful to decrease the toxicity and/or to widen the therapeutic window of the pharmaceutical agent. The invention also provides methods for preparing such a composition.

The invention provides compositions comprising a single protein having one or more molecules of a pharmaceutical agent tightly bound therein. The compositions are useful to decrease the toxicity and/or to widen the therapeutic window of the pharmaceutical agent. The invention also provides methods for preparing such a composition.

Disclosed are methods for treating specific genetic subtypes of diffuse large B cell lymphoma using a combination of a BTK inhibitor and R-CHOP chemotherapy. The methods produce favorable event-free survival and overall survival rates among subjects exhibiting the genetic subtypes.

Disclosed are methods for treating specific genetic subtypes of diffuse large B cell lymphoma using a combination of a BTK inhibitor and R-CHOP chemotherapy. The methods produce favorable event-free survival and overall survival rates among subjects exhibiting the genetic subtypes.

Disclosed are methods for treating specific genetic subtypes of diffuse large B cell lymphoma using a combination of a BTK inhibitor and R-CHOP chemotherapy. The methods produce favorable event-free survival and overall survival rates among subjects exhibiting the genetic subtypes.