Visualization and Cytotoxicity of Fluorescence-Labeled Dimeric Magnetite-Gold Nanoparticles Conjugated with Prostate-Specific Membrane Antigen in Mouse Macrophages.

Pirutin; S K;Efremova; M V;Yusipovich; A I;Turovetskii; V B;Maksimov; G V;Druzhko; A B;Mazhuga; A G;

doi:10.1007/s10517-019-04356-9

Visualization and Cytotoxicity of Fluorescence-Labeled Dimeric Magnetite-Gold Nanoparticles Conjugated with Prostate-Specific Membrane Antigen in Mouse Macrophages.

Clicks: 410

ID: 346

2019

Article Quality & Performance Metrics

Overall Quality Improving Quality

75.3 /100

Combines engagement data with AI-assessed academic quality

Reader Engagement Star Article

68.5 /100

409 views

313 readers

AI Quality Assessment 🥈 High Quality

78.3 /100

Academic Rigor 78.0%

Novelty 72.0%

Clarity 85.0%

Key Strengths

Specific quantitative reporting of uptake (13%) and damage (25%)
Use of dimeric magnetite-gold structures which offer dual-modality potential
Clear focus on the interaction with the immune system (macrophages)

Areas for Improvement

Short incubation window (3 hours) may not reflect long-term bioaccumulation
Low uptake percentage suggests potential issues with targeting efficiency in vivo
Limited diversity in cell lines tested

AI Recommendations

Future studies should include a time-course analysis beyond 3 hours and compare these results with non-conjugated nanoparticles to isolate the effect of the PSMA ligand on macrophage internalization.

Enhanced v2.0 Analysis NISO/DORA Compliant

NISO/DORA Compliant

Research Integrity

⚡ Emerging

Topic Trend

2025 Relevance

Relevance

68%

Importance

76%

Authorship

Collaborative

Authors

7

Diversity

55%

Research Integrity

COPE Standards

Integrity

85%

Innovation

70%

Interdisciplinary Value

🔀 Cross-disciplinary

78%

Practical Impact Potential

Real-world Applications

74%

Enhanced Evaluation v2.0: Following NISO RP-25-2016, DORA 2025, and COPE assessment standards with 13 quality dimensions.

Abstract

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We demonstrated the possibility of penetration of magnetite-gold nanoparticles conjugated with prostate-specific membrane antigen into mouse macrophages. It was found that after 3-h incubation with nanoparticles in a concentration of 15 mg/liter at 37oC, they were seen in only 13% macrophages. In about 90% cells, the nanoparticles were detected within the cytoplasm. Under these conditions, membrane damage was revealed in 25% cells. These results should be taken into account in further development and application of nanomaterials for diagnostic and therapeutic purposes in oncology.

Reference Key	pirutin2019visualization Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	Pirutin, S K;Efremova, M V;Yusipovich, A I;Turovetskii, V B;Maksimov, G V;Druzhko, A B;Mazhuga, A G;
Journal	Bulletin of experimental biology and medicine
Year	2019
DOI	10.1007/s10517-019-04356-9 Searching for DOI...
URL	https://doi.org/10.1007/s10517-019-04356-9
Keywords	Magnetite-gold nanoparticles Prostate-specific membrane antigen Cytotoxicity macrophages nanomedicine Fluorescence labeling Intracellular uptake

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