Blood group antigen studies using CdTe quantum dots and flow cytometry

Filho, Paulo E. Cabral; Pereira, Maria I.A.; Fernandes, Heloise P.; Thomaz, André A. de; César, Carlos L.; Santos, Beate S.; Barjas‐Castro, Maria Lourdes; Fontes, Adriana

doi:10.2147/ijn.s84551

Cited by 8 publications

(8 citation statements)

References 25 publications

(31 reference statements)

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“…The redshift probably results from the QD surface modification promoted by covalent coupling. These findings have already been previously reported for QD conjugation [13,82]. In addition, after BNP washing, using a NdFeB magnet, the absorption spectrum of the supernatant did not present any peak characteristic of the QD suspension (figure 9(c)).…”

Section: Magnetization M(t)supporting

confidence: 87%

“…On the other hand, QDs have also played a significant role in photonic and biomedical applications due to their broad absorption band, narrow emission spectra, high photoluminescence intensity, high photostability, and active surface [11]. Due to the wide range of QD biological applications as fluorescent probes with chemical specificity, different synthetic routes and conjugation strategies have been reported [11][12][13].…”

Section: Introductionmentioning

confidence: 99%

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Highly fluorescent and superparamagnetic nanosystem for biomedical applications

Cabrera¹,

Filho²,

Silva³

et al. 2017

Nanotechnology

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This work reports on highly fluorescent and superparamagnetic bimodal nanoparticles (BNPs) obtained by a simple and efficient method as probes for fluorescence analysis and/or contrast agents for MRI. These promising BNPs with small dimensions (ca. 17 nm) consist of superparamagnetic iron oxide nanoparticles (SPIONs) covalently bound with CdTe quantum dots (ca. 3 nm). The chemical structure of the magnetic part of BNPs is predominantly magnetite, with minor goethite and maghemite contributions, as shown by Mössbauer spectroscopy, which is compatible with the x-ray diffraction data. Their size evaluation by different techniques showed that the SPION derivatization process, in order to produce the BNPs, does not lead to a large size increase. The BNPs saturation magnetization, when corrected for the organic content of the sample, is ca. 68 emu g, which is only slightly reduced relative to the bare nanoparticles. This indicates that the SPION surface functionalization does not change considerably the magnetic properties. The BNP aqueous suspensions presented stability, high fluorescence, high relaxivity ratio (r /r equal to 25) and labeled efficiently HeLa cells as can be seen by fluorescence analysis. These BNP properties point to their applications as fluorescent probes as well as negative T -weighted MRI contrast agents. Moreover, their potential magnetic response could also be used for fast bioseparation applications.

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Section: Magnetization M(t)supporting

confidence: 87%

Section: Introductionmentioning

confidence: 99%

Highly fluorescent and superparamagnetic nanosystem for biomedical applications

Cabrera¹,

Filho²,

Silva³

et al. 2017

Nanotechnology

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“…21 Although the advanced FC method already demonstrated the feasibility of antigen detection in those weak variants, 8 we thought that technical difficulties might still exist in many laboratories, as exemplified by the recent report, which described a failure in distinguishing an A el phenotype from the O-type samples even with the quantum dots-based sensitive FC assay. 22 Therefore, we tested whether our established RBC-FC analysis could identify small numbers of positive events in the weak ABO variant samples.…”

Section: Resultsmentioning

confidence: 99%

“…Regarding the ABO variants characterized by small amounts of antigens, for example, the A el and B m subtypes, it is generally believed that their presence can only be demonstrated by an adsorption‐elution test, which is the most sensitive serological technique 21 . Although the advanced FC method already demonstrated the feasibility of antigen detection in those weak variants, 8 we thought that technical difficulties might still exist in many laboratories, as exemplified by the recent report, which described a failure in distinguishing an A el phenotype from the O‐type samples even with the quantum dots‐based sensitive FC assay 22 . Therefore, we tested whether our established RBC‐FC analysis could identify small numbers of positive events in the weak ABO variant samples.…”

Section: Resultsmentioning

confidence: 99%

A report on a modified protocol for flow cytometry‐based assessment of blood group erythrocyte antigens potentially suitable for analysis of weak ABO subgroups

et al. 2023

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Background: Flow cytometry (FC) has proven its utility in scrutinizing AB antigen expression in red blood cells (RBCs), cooperating with serological tests for accurate blood group typing. However, technical difficulties may impair the characterization of weak ABO subtypes when background noises appear at non-negligible levels. Study design and methods: We sought to establish an FC method that could prevent antibody-induced hemagglutination and an increase in cellular autofluorescence, two major issues inherent to RBC-FC analysis of AB expression.We optimized fixatives, multicolor-staining protocols, and sequential gating strategies. Blood samples from weak ABO subtype cases, B m and A el , were analyzed with the established protocol. Results:The optimized mixture of glutaraldehyde and formaldehyde successfully generated fixed RBCs resistant to agglutination while maintaining low autofluorescence. These features allowed co-staining of leukocyte-and erythrocyte-markers, which enabled sequential gating strategies facilitating the precise AB antigen analysis in purely single RBCs with minimum background noises. By the established FC analysis, we could detect in the B m sample a small RBC population exhibiting weak B antigen expression. The assay also proved it feasible to identify a small population (0.04%) of RBCs weakly expressing the A antigen in the A el sample confirmed as harboring a rare c.816dupG ABO variant allele. Conclusion:The RBC-FC analysis described here allows the detection of AB antigens weakly expressed in RBCs while achieving minimum background noise levels in negative control samples. Overall, the modified protocol provides a quick and reliable assay valuable in transfusion medicine and is potentially applicable to the characterization of rare weak ABO variants.

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“…(ii) UEA I (Ulex europaeus I) to study the expression of human erythrocyte antigens [24]; (iii) Cramoll (Cramoll 1,4) from Cratylia mollis to elucidate the glucose/ mannose profile in normal, benign, and malignant breast tissues [25]; and (iv) with jacalin to study leukemia cells [26]. Typical conjugation strategies involving lectins and QDs include adsorption or covalent binding between carboxyl moieties on the QD surface and amine groups in the proteins [27].…”

Section: Introductionmentioning

confidence: 99%

Mannose-binding lectin conjugated to quantum dots as fluorescent nanotools for carbohydrate tracing

Lima

Oliveira

Silva

et al. 2022

Methods Appl. Fluoresc.

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Quantum dots (QDs) have stood out as nanotools for glycobiology due to their photostability and ability to be combined with lectins. Mannose-binding lectin (MBL) is involved in the innate immune system and plays important roles in the activation of the complement cascade, opsonization, and elimination of apoptotic and microbial cells. Herein, adsorption and covalent coupling strategies were evaluated to conjugate QDs to a recombinant human MBL (rhMBL). The most efficient nanoprobe was selected by evaluating the conjugate ability to label Candida albicans yeasts by flow cytometry. The QDs-rhMBL conjugate obtained by adsorption at pH 6.0 was the most efficient, labeling ca. 100% of cells with the highest median fluorescence intensity. The conjugation was also supported by Fourier transform infrared spectroscopy, zeta potential, and size analyses. C. albicans labeling was calcium-dependent; 12% and <1% of cells were labeled in buffers without calcium and containing EDTA, respectively. The conjugate promoted specific labeling (based on cluster effect) since, after inhibition with mannan, there was a reduction of 80% in cell labeling, which did not occur with methyl-α-D-mannopyranoside monosaccharide. Conjugates maintained colloidal stability, bright fluorescence, and biological activity for at least 8 months. Therefore, QDs-rhMBL conjugates are promising nanotools to elucidate the roles of MBL in biological processes.

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Blood group antigen studies using CdTe quantum dots and flow cytometry

Cited by 8 publications

References 25 publications

Highly fluorescent and superparamagnetic nanosystem for biomedical applications

Highly fluorescent and superparamagnetic nanosystem for biomedical applications

A report on a modified protocol for flow cytometry‐based assessment of blood group erythrocyte antigens potentially suitable for analysis of weak ABO subgroups

Mannose-binding lectin conjugated to quantum dots as fluorescent nanotools for carbohydrate tracing

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