In the last decades, the biological properties of Lp(a) have attracted increasing attention for their possible involvement in a wide range of clinical conditions other than atherosclerotic cardiovascu Show more
In the last decades, the biological properties of Lp(a) have attracted increasing attention for their possible involvement in a wide range of clinical conditions other than atherosclerotic cardiovascular disease. To date, whether a pathogenic interplay may exist between Lp(a) and cancer remains unclear. Indeed, experimental studies mainly show a protective effect of Lp(a) toward cancer, while results of clinical studies are highly contradictory. Nonetheless, the confirmation of any link between Lp(a) metabolism and cancer may be highly impactful for its translational implications in the current era of a renewed scientific interest in this lipoprotein. Indeed, the increasing availability of laboratory assays for the routine assessment of plasma Lp(a) levels could be proposed as an additional tool for cancer diagnosis and prognostic stratification. In addition, the tumultuous development of anti-Lp(a) therapeutics, if a pro-cancerogenic Lp(a) activity will be confirmed, could have an impact on the natural history of cancer and on its pharmacological management. This review resumes current knowledge on the relationship between Lp(a) and cancer as well as on its possible impact on the oncological field. Show less
There is only partial overlap in the genetic background of isolated rapid-eye-movement sleep behavior disorder (iRBD) and Parkinson's disease (PD). To examine the role of autosomal dominant and recess Show more