In silico and in vivo toxicity assessment of cysteamine-modified nanoparticles : implications for pharmacotherapy application

Abstract

BACKGROUND : Given the increasing therapeutic potential of cysteamine (CYST) at appropriate doses and expert concerns regarding the toxicity of nanoparticles, this study aimed to assess the toxicity profile of both CYST and silver nanoparticles conjugated with cysteamine (CYST-AgNPs). METHODS : For the acute study, a 300 mg/kg starting dose of CYST (i.p administration) produced a toxic response in some mice (n = 3/group), and a 300 mg/kg beginning dose of CYST-AgNPs produced delayed mild toxicity. Lower doses of CYST and CYST-AgNPs (50, 100, and 200 mg/kg; n = 3/group) were administered (i.p) for further acute toxicological evaluation. The sub-acute toxicity test was conducted for 21 days, and female mice (n = 5/group) were divided into control, CYST (25 and 50 mg/kg), and CYST-AgNPs (25 and 50 mg/kg). AgNPs and CYST-AgNPs were characterized with FTIR spectroscopy, UV spectrophotometer, HR-TEM, and SEM-EDX. Blood samples were collected via cardiac puncture and processed according to the standard hematological analysis protocols. RESULTS : The UV-vis absorbance wavelength range of 400-800 nm was observed. HR-TEM showed mostly spherical nanoparticles ranging from 30 to 90 nm. FTIR showed a functional group of O-H, C = C stretching vibration for AgNPs and O-H, S-H, N-H, C = C stretching vibration for CYST-AgNPs. EDX spectroscopy showed silver, carbon, oxygen, sodium, and chloride elements for AgNPs and CYST-AgNPs. The CYST decreased the WBC, RBC, and platelet counts significantly (p < 0.05), while CYST-AgNPs (25 and 50 mg/kg) reduced only the RBC counts (p < 0.05). CONCLUSION : This investigation presents the in vivo safety analysis and pharmacological potential of cysteamine-modified silver nanoparticles (CYST-AgNPs), suggesting enhanced therapeutic activity.