ABSTRACT
Drug delivery is an important topic that has attracted the attention of researchers in recent years. Albumin nanoparticles play a significant role in drug delivery as a carrier due to their unique characteristics. Albumin is non-toxic, biocompatible, and biodegradable. Its structure is such that it can interact with different drugs, which makes the treatment of the disease faster and also reduces the side effects of the drug. Albumin nanoparticles can be used in the diagnosis and treatment of many diseases, including cancer, diabetes, Alzheimer's, etc. These nanoparticles can connect to some compounds, such as metal nanoparticles, antibodies, folate, etc. and create a powerful nanostructure for drug delivery. In this paper, we aim to investigate albumin nanoparticles in carrier format for drug delivery application. In the beginning, different types of albumin and their preparation methods were discussed, and then albumin nanoparticles were discussed in detail in diagnosing and treating various diseases.
ABSTRACT
Neuropilin-1 (NRP-1) is a non-tyrosine kinase receptor and when overexpressed, leads to angiogenesis. High expression of NRP-1 has been observed in various cancers. Unique characteristic of nanobodies (small size, high affinity and stability, and ease production) make them potential therapeutic tools. Oligoclonal nanobodies which detect multiple functional epitopes on the target antigen could be potential tools for inhibition of cancer resistance problems due to escape variant of tumor cells. In this study, oligoclonal anti-NRP-1 nanobodies were selected from camel immune library and their binding activities as well as in vitro functionality were evaluated. Anti-NRP-1 nanobodies were expressed in an Escherichia coli host, and purified using nickel affinity chromatography. The effect of each individual and oligoclonal nanobodies on human endothelial cells were evaluated by MTT, Tube formation, and migration assay as well. Results showed that oligoclonal anti-NRP-1 nanobodies detected different epitopes of NRP-1 antigen and inhibited in vitro angiogenesis of human endothelial cells better than each individual nanobody. Results indicate promising oligoclonal anti-NRP-1 nanobodies for inhibition of angiogenesis.
Subject(s)
Neoplasms , Single-Domain Antibodies , Humans , Epitopes , Endothelial Cells , NeuropilinsABSTRACT
Acinetobacter baumannii is one of the most notorious nosocomial pathogens with high mortality rates. Recently, egg yolk antibody (IgY), has been considered as a promising biomolecule against pneumonia caused by this bacterium. Loop 3 of outer membrane protein 34 (Omp34) was predicted as a highly exposed immunogenic peptide. However, its immunogenicity remains to be experimentally elucidated. In the current study, a construct composed of 5 copies of loop3 of Omp34 labeled as Omp34L3X5 was designed. This construct as well as the recombinant Omp34 were expressed, purified, and injected into laying hens to raise specific antibodies. The specific IgYs were extracted from hyperimmune egg yolks. The Omp34L3X5 and whole cells (WC) of A. baumannii served as antigens in indirect ELISA to assess the purified IgYs reactivity. These antibodies were administered to neutropenic mice 1 h before the challenge with 10 × LD50 of a clinical isolate of A. baumannii. The specific IgYs recognized recombinant Omp34 (P < 0.0001) as well as WC of A. baumannii (P < 0.05). The survival rate of mice that received anti- Omp34L3X5 or anti-Omp34 IgYs was 83.33 % and 100 % respectively. All control mice died within 24 h while mice that received non-specific IgYs died within 72 h. After 24 h, bacterial load in the lung of mice received non-specific IgYs, anti-Omp34L3X5 or anti-Omp34 IgYs were 2.03 × 108, 2.2 × 108, and 1.93 × 108 CFU/organ respectively. Bacterial load in the spleen of mice received non-specific IgYs, anti-Omp34L3X5 or anti-Omp34 IgYs were 1.03 × 108, 7.8 × 107, and 6.3 × 107 CFU/organ respectively. Bacterial load in lung and spleen of control mice were 3.03 × 109 and 1.45 × 108 CFU/organ respectively.
