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Lipases and Related Molecules in Cancer
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Lipases are enzymes that catalyze the hydrolysis of lipids. Based on protein structures and sequences, lipases can be classified into different protein families. The majority of conventional mammalian lipases are members of the protein super-families of serine esterases and alpha-beta hydrolases. Differential expression of lipases and related alpha-beta hydrolases in tumor cells has been observed. The physiological or patho-physiological functions of these tumor related enzymes are largely unknown. However, lipases are not only involved in energy metabolism but also in the metabolism of bioactive molecules, e.g. phosphatidic acid or arachidonic acid, suggesting that tumor-specifically expressed lipases might be interesting targets for the development of future treatment strategies. Moreover, independent of the patho-physiological function, tumor associated lipases can serve as targets for immunological treatment strategies. In addition, lipases with exclusive expression in single tumor entities can serve as potential diagnostic targets.
Title: Lipases and Related Molecules in Cancer
Description:
Lipases are enzymes that catalyze the hydrolysis of lipids.
Based on protein structures and sequences, lipases can be classified into different protein families.
The majority of conventional mammalian lipases are members of the protein super-families of serine esterases and alpha-beta hydrolases.
Differential expression of lipases and related alpha-beta hydrolases in tumor cells has been observed.
The physiological or patho-physiological functions of these tumor related enzymes are largely unknown.
However, lipases are not only involved in energy metabolism but also in the metabolism of bioactive molecules, e.
g.
phosphatidic acid or arachidonic acid, suggesting that tumor-specifically expressed lipases might be interesting targets for the development of future treatment strategies.
Moreover, independent of the patho-physiological function, tumor associated lipases can serve as targets for immunological treatment strategies.
In addition, lipases with exclusive expression in single tumor entities can serve as potential diagnostic targets.
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