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A tool for nuclear imaging of the SARS-CoV-2 entry receptor: molecular model and preclinical development of ACE2-selective radiopeptides

Purpose: The angiotensin converting enzyme-2 (ACE2)-entry receptor of SARS-CoV-2-and its homologue, the angiotensin-converting enzyme (ACE), play a pivotal role in maintaining cardiovascular homeostasis. Potential changes in ACE2 expression levels and dynamics after SARS-CoV-2 infection have been barely investigated. The aim of this study was to develop an ACE2-targeting imaging agent as a noninvasive imaging tool to determine ACE2 regulation.

Methods: DOTA-DX600, NODAGA-DX600 and HBED-CC-DX600 were obtained through custom synthesis and labeled with gallium-67 (T1/2 = 3.26 d) as a surrogate radioisotope for gallium-68 (T1/2 = 68 min). ACE2- and ACE-transfected HEK cells were used for the in vitro evaluation of these radiopeptides. The in vivo tissue distribution profiles of the radiopeptides were assessed in HEK-ACE2 and HEK-ACE xenografted mice and imaging studies were performed using SPECT/CT.

Results: The highest molar activity was obtained for [67Ga]Ga-HBED-CC-DX600 (60 MBq/nmol), whereas the labeling efficiency of the other peptides was considerably lower (20 MBq/nmol). The radiopeptides were stable over 24 h in saline (> 99% intact peptide). All radiopeptides showed uptake in HEK-ACE2 cells (36-43%) with moderate ACE2-binding affinity (KD value: 83-113 nM), but no uptake in HEK-ACE cells (< 0.1%) was observed. Accumulation of the radiopeptides was observed in HEK-ACE2 xenografts (11-16% IA/g) at 3 h after injection, but only background signals were seen in HEK-ACE xenografts (< 0.5% IA/g). Renal retention was still high 3 h after injection of [67Ga]Ga-DOTA-DX600 and [67Ga]Ga-NODAGA-DX600 (~ 24% IA/g), but much lower for [67Ga]Ga-HBED-CC-DX600 (7.2 ± 2.2% IA/g). SPECT/CT imaging studies confirmed the most favorable target-to-nontarget ratio for [67Ga]Ga-HBED-CC-DX600.

Conclusions: This study demonstrated ACE2 selectivity for all radiopeptides. [67Ga]Ga-HBED-CC-DX600 was revealed as the most promising candidate due to its favorable tissue distribution profile. Importantly, the HBED-CC chelator enabled 67Ga-labeling at high molar activity, which would be essential to obtain images with high signal-to-background contrast to detect (patho)physiological ACE2 expression levels in patients.

 

Comments:

This study focuses on developing a tool for noninvasive imaging of ACE2, the receptor for SARS-CoV-2. They created imaging agents labeled with gallium-67, which acts as a surrogate for gallium-68, and tested these on cells transfected with ACE2 or ACE. The results showed that the radiopeptides had high stability, selectively targeted ACE2-expressing cells, and had promising uptake in ACE2 xenografts in mice.

The peptide labeled as [67Ga]Ga-HBED-CC-DX600 stood out due to its favorable tissue distribution profile, particularly its high molar activity. This could be crucial for generating high-contrast images to detect ACE2 expression levels in patients, potentially shedding light on any changes after SARS-CoV-2 infection.

Such a tool could be instrumental in understanding the regulation of ACE2 and its dynamics post-infection, especially concerning cardiovascular homeostasis. It may also aid in monitoring changes in ACE2 expression levels that could influence disease progression and treatment approaches for conditions related to ACE2 activity.

Related Products

Cat.No. Product Name Information
S9666 DX600 DX600 is a specific inhibitor of angiotensin-converting enzyme 2 (ACE2) that does not cross-react with ACE.

Related Targets

ACE