The Alkaloids from Lophophora diffusa and Other "False Peyotes".
Camilla B Chan, Christian B M Poulie, Simon S Wismann, Jens Soelberg, Jesper L Kristensen
Journal of natural products August 27, 2021 DOI: 10.1021/acs.jnatprod.1c00381 via PubMed
Summary
The term 'false peyote' is commonly applied to Lophophora diffusa, but several other unrelated cacti also share this name due to their resemblance to true peyote (Lophophora williamsii) or similar habitats. Over 40 alkaloids have been isolated from the Lophophora genus, yet only mescaline's pharmacological effects are well-studied. The major alkaloid in L. diffusa is pellotine, a tetrahydroisoquinoline briefly marketed as a sleeping aid in the early 1900s based on reports of its hypnotic properties. Pharmacological experiments on these alkaloids occurred around 1900, with chemical synthesis achieved decades later and biosynthetic pathways reported in the late 1960s. This review outlines the relationship of false peyotes to L. williamsii regarding alkaloid content, synthesis, and pharmacology.
Study at a glance
| Characteristics | Review Peer reviewed |
|---|---|
| Citations | 13 |
| Key finding | The review discusses the relationship of various false peyote cacti to Lophophora williamsii, focusing on their alkaloid content, synthesis, and pharmacology. |
Abstract
Commonly, false peyote refers to Lophophora diffusa. However, several other unrelated cacti go by this colloquial name. They either resemble "true" peyote, Lophophora williamsii, or are found in similar habitats. To date, over 40 different alkaloids have been isolated from the Lophophora genus. Of these, only the pharmacological actions of mescaline (1) have been extensively investigated. The major alkaloid in L. diffusa is pellotine (2), a tetrahydroisoquinoline (THIQ), which was briefly marketed as a sleeping aid around the beginning of the 20th century, following reports of its hypnotic properties in humans. Pharmacological experiments with the Lophophora THIQs were performed at the turn of the 20th century, whereas the chemical synthesis was not realized until several decades later. The biosynthetic pathways of the main Lophophora alkaloids were reported at the end of the 1960s. In this review, the relationship of the different "false peyotes" to L. williamsii, in regard to their alkaloid content, the bio- and chemical synthesis of the most relevant alkaloids, and their corresponding pharmacology will be outlined and discussed.