The Efficiency of Schistosoma mansoni Crude Antigens in Inhibition of Heat Shock Protein, Apoptosis, and Lysosomal Activity: An Immunohistochemical Study.
Sulaiman Mohammed Abdullah AlnasserMeshal AlotaibiNancy K RamadanHanan Hassan Abdel-HafeezSara Salah Abdel-HakeemPublished in: Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada (2023)
The adverse impact of schistosomiasis on tissues is considered in generating a schistosomal vaccine. The purpose of this study was to evaluate the effectiveness of Schistosoma mansoni crude antigens as a therapeutic and prophylactic formulation in the inhibition of heat shock protein, apoptosis, and CD3/CD20 expression in a liver and spleen mouse models using the immunohistochemistry method. A total of 65 mice were divided into five groups: (i) infected untreated group (G1), (ii) therapeutic treated group (G2) with egg soluble egg antigen (SEA), and soluble worm antigen preparation (SWAP), (iii) prophylactically treated group (G3) with cercarial antigen preparation (CAP), (iv) combined treated group with three antigens (G4), and (v) control group (G5). The results we obtained showed that CAP, SEA, and SWAP antigens mitigated the deterioration and inflammation induced by infection. Apoptosis and sinusoidal injuries were significantly reduced when treated with CAP antigen before infection. After infection, using SEA and SWAP antigens may help lighten the liver's load. A high degree of activation in T and B cells in the liver and spleen is linked to this. Our findings shed light on the immunological mechanisms that contribute to the recovery from therapy and vaccination against schistosome damage.
Keyphrases
- heat shock protein
- oxidative stress
- dendritic cells
- endoplasmic reticulum stress
- cell cycle arrest
- cell death
- heat shock
- randomized controlled trial
- poor prognosis
- systematic review
- gene expression
- immune response
- metabolic syndrome
- type diabetes
- emergency department
- cell proliferation
- skeletal muscle
- mesenchymal stem cells
- long non coding rna
- molecularly imprinted
- signaling pathway
- electronic health record