MRI Detection of Lymph Node Metastasis through Molecular Targeting of C–C Chemokine Receptor Type 2 and Monocyte Hitchhiking

Trac, Noah; Chen, Zixi; Oh, Hyun-seok; Jones, Leila; Huang, Yi; Giblin, Joshua; Gross, Mitchell; Sta Maria, Naomi S.; Jacobs, Russell E.; Chung, Eun Ji

doi:10.1021/acsnano.3c09201

Cited by 3 publications

(2 citation statements)

References 67 publications

(95 reference statements)

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“…Similarly, the mean T 1 relaxation time of T-SLN decreased from 887.2 to 623.3 ms, with a color change from turquoise to light blue with an uneven color distribution. The uneven distribution of T 1 relaxation time in the lymph nodes in MRI images may be related to the distribution of macrophages and tumor cells; similar phenomena have been reported previously. , MRI can effectively visualize the contrast agent, so the change rate of mean T 1 relaxation time (Δ T 1 (%), calculated as Δ T 1 = ( T 1pre – T 1post )/ T 1pre × 100%) was measured. It can be seen from Figure E that (1) Δ T 1 of T-SLN was consistently lower than that of N-LN.…”

Section: Resultssupporting

confidence: 72%

Porphyrin-Based Self-Assembled Nanoparticles for PET/MR Imaging of Sentinel Lymph Node Metastasis

Fu,

Cai,

et al. 2024

ACS Appl. Mater. Interfaces

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Diagnosing of lymph node metastasis is challenging sometimes, and multimodal imaging offers a promising method to improve the accuracy. This work developed porphyrin-based nanoparticles ( 68 Ga−F127-TAPP/TCPP(Mn) NPs) as PET/ MR dual-modal probes for lymph node metastasis imaging by a simple self-assembly method. Compared with F127-TCPP(Mn) NPs, F127-TAPP/TCPP(Mn) NPs synthesized by amino-porphyrins (TAPP) doping can not only construct PET/MR bimodal probes but also improve the T 1 relaxivity (up to 456%). Moreover, T 1 relaxivity can be adjusted by altering the molar ratio of TAPP/TCPP(Mn) and the concentration of F127. However, a similar increase in T 1 relaxivity was not observed in the F127-TCPP/ TCPP(Mn) NPs, which were synthesized using carboxy-porphyrins (TCPP) doping. In a breast cancer lymph node metastasis mice model, subcutaneous injection of 68 Ga-F127-TAPP/TCPP(Mn) NPs through the hind foot pad, the normal lymph nodes and metastatic lymph nodes were successfully distinguished based on the difference of PET standard uptake values and MR signal intensities. Furthermore, the dark brown F127-TAPP/TCPP(Mn) NPs demonstrated the potential for staining and mapping lymph nodes. This study provides valuable insights into developing and applying PET/MR probes for lymph node metastasis imaging.

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Section: Resultssupporting

confidence: 72%

Porphyrin-Based Self-Assembled Nanoparticles for PET/MR Imaging of Sentinel Lymph Node Metastasis

Fu,

Cai,

et al. 2024

ACS Appl. Mater. Interfaces

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“…Next, this study used only Cy7 to label the micelle for imaging in biodistribution studies. Additional labeling methods, such as through the use of gadolinium for MRI and isotope labeling for PET imaging, should be conducted to further quantify and measure the in vivo biodistribution and in vivo stability of micelles at different injection time points. Lastly, it is important to investigate the mechanism by which RGD micelles are taken up by both normal and diseased tubular cells and how the loading of drugs into micelles influences drug pharmacokinetics and their accumulation in the kidneys.…”

Section: Discussionmentioning

confidence: 99%

Investigation of Basolateral Targeting Micelles for Drug Delivery Applications in Polycystic Kidney Disease

Huang,

Osouli,

Pham

et al. 2024

Biomacromolecules

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Autosomal dominant polycystic kidney disease (ADPKD) is a complex disorder characterized by uncontrolled renal cyst growth, leading to kidney function decline. The multifaceted nature of ADPKD suggests that single-pathway interventions using individual small molecule drugs may not be optimally effective. As such, a strategy encompassing combination therapy that addresses multiple ADPKD-associated signaling pathways could offer synergistic therapeutic results. However, severe off-targeting side effects of small molecule drugs pose a major hurdle to their clinical transition. To address this, we identified four drug candidates from ADPKD clinical trials, bardoxolone methyl (Bar), octreotide (Oct), salsalate (Sal), and pravastatin (Pra), and incorporated them into peptide amphiphile micelles containing the RGD peptide (GRGDSP), which binds to the basolateral surface of renal tubules via integrin receptors on the extracellular matrix. We hypothesized that encapsulating drug combinations into RGD micelles would enable targeting to the basolateral side of renal tubules, which is the site of disease, via renal secretion, leading to superior therapeutic benefits compared to free drugs. To test this, we first evaluated the synergistic effect of drug combinations using the 20% inhibitory concentration for each drug (IC 20 ) on renal proximal tubule cells derived from Pkd1 flox/-:TSLargeT mice. Next, we synthesized and characterized the RGD micelles encapsulated with drug combinations and measured their in vitro therapeutic effects via a 3D PKD growth model. Upon both IV and IP injections in vivo, RGD micelles showed a significantly higher accumulation in the kidneys compared to NT micelles, and the renal access of RGD micelles was significantly reduced after the inhibition of renal secretion. Specifically, both Bar+Oct and Bar+Sal in the RGD micelle treatment showed enhanced therapeutic efficacy in ADPKD mice (Pkd1 fl/f l ;Pax8-rtTA;Tet-O-Cre) with a significantly lower KW/BW ratio and cyst index as compared to PBS and free drug-treated controls, while other combinations did not show a significant difference. Hence, we demonstrate that renal targeting through basolateral targeting micelles enhances the therapeutic potential of combination therapy in genetic kidney disease.

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Oral delivery of nanomedicine for genetic kidney disease

Huang,

Wang,

Mancino

et al. 2024

PNAS Nexus

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Chronic and genetic kidney diseases such as autosomal dominant polycystic kidney disease (ADPKD) have few therapeutic options, and clinical trials testing small molecule drugs have been unfavorable due to low kidney bioavailability and adverse side effects. Although nanoparticles can be designed to deliver drugs directly to the diseased site, there are no kidney-targeted nanomedicines clinically available, and most FDA-approved nanoparticles are administered intravenously which is not ideal for chronic diseases. To meet these challenges of chronic diseases, we developed a biomaterials-based strategy using chitosan particles (CP) for oral delivery of therapeutic, kidney-targeting peptide amphiphile micelles (KMs). We hypothesized that encapsuling KMs into CP would enhance the bioavailability of KMs upon oral administration given the high stability of chitosan in acidic conditions and mucoadhesive properties enabling absorption within the intestines. To test this, we evaluated the mechanism of KM access to the kidneys via intravital imaging and investigated the KM biodistribution in a porcine model. Next, we loaded KMs carrying the ADPKD drug metformin into CP (KM-CP-met) and measured in vitro therapeutic effect. Upon oral administration in vivo, KM-CP-met showed significantly greater bioavailability and accumulation in the kidneys as compared to KM only or free drug. As such, KM-CP-met treatment in ADPKD mice (Pkd1fl/fl; Pax8-rtTA; Tet-O-Cre which develops the disease over 120 days and mimics the slow development of ADPKD) showed enhanced therapeutic efficacy without affecting safety despite repeated treatment. Herein, we demonstrate the potential of KM-CP as a nanomedicine strategy for oral delivery for the long-term treatment of chronic kidney diseases.

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MRI Detection of Lymph Node Metastasis through Molecular Targeting of C–C Chemokine Receptor Type 2 and Monocyte Hitchhiking

Cited by 3 publications

References 67 publications

Porphyrin-Based Self-Assembled Nanoparticles for PET/MR Imaging of Sentinel Lymph Node Metastasis

Porphyrin-Based Self-Assembled Nanoparticles for PET/MR Imaging of Sentinel Lymph Node Metastasis

Investigation of Basolateral Targeting Micelles for Drug Delivery Applications in Polycystic Kidney Disease

Oral delivery of nanomedicine for genetic kidney disease

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