The present invention relates to: a pharmaceutical composition for preventing or treating LDL cholesterol-related diseases, containing a ribosome-binding preparation; a food composition; and a method for preventing or treating LDL cholesterol-related diseases by using the composition. According to the present invention, the ribosome-binding preparation selectively increases the expression of an LDL receptor in intestinal epithelial cells so as to promote LDL absorption in blood and tissue, such that LDL level in the blood can be reduced, thereby being useful for preventing or treating various LDL cholesterol-related diseases including LDL hypercholesterolemia, hyperlipidemia, hypertension and apoplexy.

The present invention relates to: a pharmaceutical composition for preventing or treating LDL cholesterol-related diseases, containing a ribosome-binding preparation; a food composition; and a method for preventing or treating LDL cholesterol-related diseases by using the composition. According to the present invention, the ribosome-binding preparation selectively increases the expression of an LDL receptor in intestinal epithelial cells so as to promote LDL absorption in blood and tissue, such that LDL level in the blood can be reduced, thereby being useful for preventing or treating various LDL cholesterol-related diseases including LDL hypercholesterolemia, hyperlipidemia, hypertension and apoplexy.

The present application relates to modified T cell epitopes derived from fungal ribotoxins, including -sarcin, clavin, gigantin, mitogillin, and restrictocin, as well as modified ribotoxin molecules comprising one or more of the modified epitopes. The modified ribotoxin molecules inhibit protein synthesis, like the wild type ribotoxins, but exhibit reduced immunogenicity as compared to the corresponding wild type ribotoxin. Another aspect relates to a fusion protein which comprises a modified ribotoxin fused or conjugated or otherwise linked to a targeting molecule that is effective for binding a target of interest. Another aspect relates to the use of the modified ribotoxin or fusion protein for treating or managing a disease or condition.

The present application relates to modified T cell epitopes derived from fungal ribotoxins, including -sarcin, clavin, gigantin, mitogillin, and restrictocin, as well as modified ribotoxin molecules comprising one or more of the modified epitopes. The modified ribotoxin molecules inhibit protein synthesis, like the wild type ribotoxins, but exhibit reduced immunogenicity as compared to the corresponding wild type ribotoxin. Another aspect relates to a fusion protein which comprises a modified ribotoxin fused or conjugated or otherwise linked to a targeting molecule that is effective for binding a target of interest. Another aspect relates to the use of the modified ribotoxin or fusion protein for treating or managing a disease or condition.

The present application relates to modified T cell epitopes derived from fungal ribotoxins, including a-sarcin, clavin, gigantin, mitogillin, and restrictocin, as well as modified ribotoxin molecules comprising one or more of the modified epitopes. The modified ribotoxin molecules inhibit protein synthesis, like the wild type ribotoxins, but exhibit reduced immunogenicity as compared to the corresponding wild type ribotoxin. Another aspect relates to a fusion protein which comprises a modified ribotoxin fused or conjugated or otherwise linked to a targeting molecule that is effective for binding a target of interest. Another aspect relates to the use of the modified ribotoxin or fusion protein for treating or managing a disease or condition.