Weil, Tatjana; Kirupakaran, Abbna; Le, My-Hue; Rebmann, Philipp; Mieres-Perez, Joel; Issmail, Leila; Conzelmann, Carina; Müller, Janis A.; Rauch, Lena; Gilg, Andrea; Wettstein, Lukas; Groß, Rüdiger; Read, Clarissa; Bergner, Tim; Pålsson, Sandra Axberg; Münch, Jan et al:
Advanced Molecular Tweezers with Lipid Anchors against SARS-CoV-2 and Other Respiratory Viruses
In: JACS Au, Vol. 2 (2022), No. 9, pp. 2187 - 2202
2022article/chapter in journalOA Gold
MedicineChemistryFaculty of Biology » Computational BiochemistryFaculty of Chemistry » Organische ChemieScientific institutes » Center of Medical Biotechnology (ZMB)
Related: 1 publication(s)
Title in English:
Advanced Molecular Tweezers with Lipid Anchors against SARS-CoV-2 and Other Respiratory Viruses
Author:
Weil, Tatjana
ORCID
0000-0003-0925-2426ORCID iD
;Kirupakaran, Abbna
;Le, My-Hue
;Rebmann, Philipp
;Mieres-Perez, Joel
;Issmail, Leila
;Conzelmann, Carina
;Müller, Janis A.
;Rauch, Lena
;Gilg, Andrea
;Wettstein, Lukas
;Groß, Rüdiger
ORCID
0000-0003-0355-7915ORCID iD
;Read, Clarissa
;Bergner, Tim
;Pålsson, Sandra Axberg
;Uhlig, Nadja
;Eberlein, Valentina
;Wöll, HeikeUDE
LSF ID
11008
Other
connected with university
;Klärner, Frank-GerritUDE
LSF ID
10905
Other
connected with university
;Stenger, Steffen
;Kümmerer, Beate M.
;Streeck, HendrikUDE
LSF ID
57653
ORCID
0000-0002-0335-6390ORCID iD
Other
connected with university
;Fois, Giorgio
;Frick, Manfred
ORCID
0000-0002-4763-1104ORCID iD
;Braubach, Peter
;Spetz, Anna-Lena
;Grunwald, Thomas
;Shorter, James
ORCID
0000-0001-5269-8533ORCID iD
;Sanchez-Garcia, ElsaUDE
LSF ID
59527
ORCID
0000-0002-9211-5803ORCID iD
Other
connected with university
corresponding author
;Schrader, ThomasUDE
GND
130213233
LSF ID
16246
ORCID
0000-0002-7003-6362ORCID iD
Other
connected with university
corresponding author
;Münch, Jan
ORCID
0000-0001-7316-7141ORCID iD
Other
corresponding author
View additional 15 authors
Year of publication:
2022
Open Access?:
OA Gold
DOI
10.1021/jacsau.2c00220
Web of Science ID
000855936700001
Scopus ID
85138203291
Note:
CA Sanchez-Garcia und CA Schrader und CA extern
Language of text:
English
Appears in
JACS Au
Place of publication:
Washington
Publisher:
American Chemical Society (ACS)
in:
Vol. 2 (2022), No. 9, pp. 2187 - 2202
ISSN
2691-3704 Show availability online & print
ZDB ID
3049543-X
Keyword, Topic:
broad-spectrum antivirals ; molecular tweezers ; respiratory viruses ; RSV ; SARS-CoV-2

Abstract in English:

The COVID-19 pandemic caused by SARS-CoV-2 presents a global health emergency. Therapeutic options against SARS-CoV-2 are still very limited but urgently required. Molecular tweezers are supramolecular agents that destabilize the envelope of viruses resulting in a loss of viral infectivity. Here, we show that first-generation tweezers, CLR01 and CLR05, disrupt the SARS-CoV-2 envelope and abrogate viral infectivity. To increase the antiviral activity, a series of 34 advanced molecular tweezers were synthesized by insertion of aliphatic or aromatic ester groups on the phosphate moieties of the parent molecule CLR01. A structure-activity relationship study enabled the identification of tweezers with a markedly enhanced ability to destroy lipid bilayers and to suppress SARS-CoV-2 infection. Selected tweezer derivatives retain activity in airway mucus and inactivate the SARS-CoV-2 wildtype and variants of concern as well as respiratory syncytial, influenza, and measles viruses. Moreover, inhibitory activity of advanced tweezers against respiratory syncytial virus and SARS-CoV-2 was confirmed in mice. Thus, potentiated tweezers are broad-spectrum antiviral agents with great prospects for clinical development to combat highly pathogenic viruses.