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Antimalarial Delivery with a Ferritin-Based Protein Cage: A Step toward Developing Smart Therapeutics against Malaria.
Bhatt, Shruti; Dasgupta, Subrata; Tupe, Chiging; Prashar, Cherish; Adhikari, Utpal; Pandey, Kailash C; Kundu, Suman; Chakraborti, Soumyananda.
Afiliación
  • Bhatt S; Department of Biochemistry, University of Delhi South Campus, Benito Juarez Road, New Delhi 110021, India.
  • Dasgupta S; Department of Biosciences & Bioengineering, Indian Institute of Technology Bombay, Mumbai 400076, India.
  • Tupe C; ICMR-National Institute of Malaria Research, Dwarka, New Delhi 110077, India.
  • Prashar C; Academy of Scientific and Innovative Research (AcSIR), Ghaziabad, UP 201002, India.
  • Adhikari U; ICMR-National Institute of Malaria Research, Dwarka, New Delhi 110077, India.
  • Pandey KC; Academy of Scientific and Innovative Research (AcSIR), Ghaziabad, UP 201002, India.
  • Kundu S; National Institute of Technology, Durgapur, West Bengal 713209, India.
  • Chakraborti S; ICMR-National Institute of Malaria Research, Dwarka, New Delhi 110077, India.
Biochemistry ; 63(14): 1738-1751, 2024 07 16.
Article en En | MEDLINE | ID: mdl-38975628
ABSTRACT
Over the past two decades, the utilization of protein cages has witnessed exponential growth driven by their extensive applications in biotechnology and therapeutics. In the context of the recent Covid-19 pandemic, protein-cage-based scaffolds played a pivotal role in vaccine development. Beyond vaccines, these protein cages have proven valuable in diverse drug delivery applications thanks to their distinctive architecture and structural stability. Among the various types of protein cages, ferritin-based cages have taken the lead in drug delivery applications. This is primarily attributed to their ease of production, exceptional thermal stability, and nontoxic nature. While ferritin-based cages are commonly employed in anticancer drug delivery and contrast agent delivery, their efficacy in malarial drug delivery had not been explored until this study. In this investigation, several antimalarial drugs were encapsulated within horse spleen ferritin, and the binding and loading processes were validated through both experimental and computational techniques. The data unequivocally demonstrate the facile incorporation of antimalarial drugs into ferritin without disrupting its three-dimensional structure. Computational docking and molecular dynamics simulations were employed to pinpoint the precise location of the drug binding site within ferritin. Subsequent efficacy testing on Plasmodium revealed that the developed nanoconjugate, comprising the drug-ferritin conjugate, exhibited significant effectiveness in eradicating the parasite. In conclusion, the findings strongly indicate that ferritin-based carrier systems hold tremendous promise for the future of antimalarial drug delivery, offering high selectivity and limited side effects.
Asunto(s)

Texto completo: 1 Base de datos: MEDLINE Asunto principal: Ferritinas / Antimaláricos Idioma: En Revista: Biochemistry Año: 2024 Tipo del documento: Article

Texto completo: 1 Base de datos: MEDLINE Asunto principal: Ferritinas / Antimaláricos Idioma: En Revista: Biochemistry Año: 2024 Tipo del documento: Article