Heat shock protein (HSP) and its correlation to cocaine-related death: a systematic review.

Abstract

Investigating deaths related to chronic cocaine abuse can be a difficult task, particularly when they occur suddenly and without explanation. Cocaine abuse can trigger biological effects similar to physiological stressors, causing the body to produce heat-shock proteins (HSPs). However, there is still limited information on the specific levels of each HSP type. This systematic review aims to comprehensively collect and analyze all existing literature data regar-ding the relationship between HSPs and cocaine abuse to investigate whether HSPs can be utilized as forensic markers for accurately dia-gnosing cocaine-related deaths. The Authors conducted the literature search using PubMed and Scopus databases, searching for articles published between 1 January 1992 and 1 April 2024 using the text string: "heat shock protein" AND "cocaine". Twenty articles were collected, but only nine were included in the systematic review. The data gathered pertained to both human and murine species. The majority of the analyzed articles revealed an elevation in HSP25, HSP27, HSP60, HSP70, HSP72, and HSP73 levels in the brain, cerebellum, and liver, indicating cocaine-induced stress. The relationship between HSP and cocaine has been unclear over time. However, recent studies have shown that cocaine consumption leads to an increase in HSP levels, particularly in the central nervous system. This correlation can also be observed in certain types of liver cells that are capable of binding cocaine metabolites. In conclusion, HSP brain levels, along with other biomarkers, may be used to diagnose sudden, unexpected death related to cocaine abuse.