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Cytotoxic, anti-coronavirus, and antioxidant activity of Hypericum triquetrifolium: Potential therapeutic applications

Cytotoxic, anti-coronavirus, and antioxidant activity of Hypericum triquetrifolium: Potential therapeutic applications
Cytotoxic, anti-coronavirus, and antioxidant activity of Hypericum triquetrifolium: Potential therapeutic applications
Background:
Hypericum triquetrifolium (HT) is an herbal medicine that has promising pharmacological properties and is traditionally used to treat multiple diseases.

Aim:
This study examined the chemical composition, antioxidant, anti-inflammatory, and antiviral properties of HT, focusing on its impact on the cytopathic effect of human coronavirus-229E (HCoV-229E).

Methods:
The phytochemical content and in vitro bioactivity of the aqueous extract of HT collected from Al Marj, Libya, were documented. Common antioxidants were quantified, and the antioxidant activity of the extract was assessed using standard methods. The anti-inflammatory effect of albumin denaturation was evaluated. In this study, we determined the cytotoxicity on Medical Research Council-5 cells and antiviral activity by measuring the extract’s ability to inhibit the cytopathic effect of HCoV-229E on MRC-5 cells.

Results:
The phytochemical analysis confirmed the presence of phenols, flavonoids, proanthocyanidin, anthocyanidin, and catechin, and a high total phenolic content. The extract possessed strong free radical scavenging activity. In addition, the HT extract significantly inhibited heat-induced albumin denaturation, demonstrating its anti-inflammatory effect. The extract significantly inhibited the cytopathic effect of HCoV-229E on MRC-5 cells, indicating for the first time the antiviral effect of HT.

Conclusion:
To the best of our knowledge, this study is the first to demonstrate that HT extract has low cytotoxicity and potential antiviral activity against a surrogate human coronavirus. Although these results are promising, they are based on in vitro testing with HCoV-229E, and further studies, including in vivo and clinical investigations, are necessary to assess the relevance of HCoV-2 to severe acute respiratory syndrome-CoV-2 and other human coronaviruses.
1
Alghazeer, Rabia
5acc4581-0ada-46b8-a611-abe68d254b92
Elghmasi, Sana
aa6616c7-67e6-4851-a826-297f3fba6fe6
Varbanov, Mihayl
4ac1c38f-96a1-4bbb-a250-1b93e03b0255
Philippot, Stéphanie
b34eda39-6026-4478-ace3-aef319e33b0f
Hawisa, Samia
5e0114af-1152-4ff5-8f21-9591c5582469
Sidati, Maamar
86a77781-6600-43e4-ae66-fdf2f93256e1
Lwaleed, Bashir
e7c59131-82ad-4a14-a227-7370e91e3f21
Azwai, Salah
6107494c-e761-4ed6-8702-e4ff396efa99
Eldaghayes, Ibrahim
47f54240-066e-4e40-ab66-f3f95b53e76d
Gammoudi, Fatim
a87053f7-014d-4a4b-b77f-447047cc799c
Garbaj, Aboubaker
756f7c00-40b0-4df2-b0a5-515eeef9b521
Alkasak, Musa
90e1d1b1-c855-4572-bcd6-8194f686073e
Althaluti, Ezdehar
e41cf0e5-4a9f-4e17-bdf6-d6f4435c9167
Alghazeer, Rabia
5acc4581-0ada-46b8-a611-abe68d254b92
Elghmasi, Sana
aa6616c7-67e6-4851-a826-297f3fba6fe6
Varbanov, Mihayl
4ac1c38f-96a1-4bbb-a250-1b93e03b0255
Philippot, Stéphanie
b34eda39-6026-4478-ace3-aef319e33b0f
Hawisa, Samia
5e0114af-1152-4ff5-8f21-9591c5582469
Sidati, Maamar
86a77781-6600-43e4-ae66-fdf2f93256e1
Lwaleed, Bashir
e7c59131-82ad-4a14-a227-7370e91e3f21
Azwai, Salah
6107494c-e761-4ed6-8702-e4ff396efa99
Eldaghayes, Ibrahim
47f54240-066e-4e40-ab66-f3f95b53e76d
Gammoudi, Fatim
a87053f7-014d-4a4b-b77f-447047cc799c
Garbaj, Aboubaker
756f7c00-40b0-4df2-b0a5-515eeef9b521
Alkasak, Musa
90e1d1b1-c855-4572-bcd6-8194f686073e
Althaluti, Ezdehar
e41cf0e5-4a9f-4e17-bdf6-d6f4435c9167

Alghazeer, Rabia, Elghmasi, Sana, Varbanov, Mihayl, Philippot, Stéphanie, Hawisa, Samia, Sidati, Maamar, Lwaleed, Bashir, Azwai, Salah, Eldaghayes, Ibrahim, Gammoudi, Fatim, Garbaj, Aboubaker, Alkasak, Musa and Althaluti, Ezdehar (2026) Cytotoxic, anti-coronavirus, and antioxidant activity of Hypericum triquetrifolium: Potential therapeutic applications. Journal of Microbiology and Infectious Diseases, 16 (1), 1. (doi:10.5455/JMID.2026.v16.i1.1).

Record type: Article

Abstract

Background:
Hypericum triquetrifolium (HT) is an herbal medicine that has promising pharmacological properties and is traditionally used to treat multiple diseases.

Aim:
This study examined the chemical composition, antioxidant, anti-inflammatory, and antiviral properties of HT, focusing on its impact on the cytopathic effect of human coronavirus-229E (HCoV-229E).

Methods:
The phytochemical content and in vitro bioactivity of the aqueous extract of HT collected from Al Marj, Libya, were documented. Common antioxidants were quantified, and the antioxidant activity of the extract was assessed using standard methods. The anti-inflammatory effect of albumin denaturation was evaluated. In this study, we determined the cytotoxicity on Medical Research Council-5 cells and antiviral activity by measuring the extract’s ability to inhibit the cytopathic effect of HCoV-229E on MRC-5 cells.

Results:
The phytochemical analysis confirmed the presence of phenols, flavonoids, proanthocyanidin, anthocyanidin, and catechin, and a high total phenolic content. The extract possessed strong free radical scavenging activity. In addition, the HT extract significantly inhibited heat-induced albumin denaturation, demonstrating its anti-inflammatory effect. The extract significantly inhibited the cytopathic effect of HCoV-229E on MRC-5 cells, indicating for the first time the antiviral effect of HT.

Conclusion:
To the best of our knowledge, this study is the first to demonstrate that HT extract has low cytotoxicity and potential antiviral activity against a surrogate human coronavirus. Although these results are promising, they are based on in vitro testing with HCoV-229E, and further studies, including in vivo and clinical investigations, are necessary to assess the relevance of HCoV-2 to severe acute respiratory syndrome-CoV-2 and other human coronaviruses.

This record has no associated files available for download.

More information

Accepted/In Press date: 7 December 2025
e-pub ahead of print date: 1 January 2026
Published date: 1 January 2026
Learn more about the Institute for Life Sciences Learn more about the Institute for Life Sciences

Identifiers

Local EPrints ID: 510309
URI: http://eprints.soton.ac.uk/id/eprint/510309
DOI: doi:10.5455/JMID.2026.v16.i1.1
PURE UUID: f69c5a41-d4d4-454a-99e3-732f549702a6
ORCID for Bashir Lwaleed: ORCID iD orcid.org/0000-0001-5748-4892

Catalogue record

Date deposited: 25 Mar 2026 17:37
Last modified: 28 Mar 2026 02:41

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Contributors

Author: Rabia Alghazeer
Author: Sana Elghmasi
Author: Mihayl Varbanov
Author: Stéphanie Philippot
Author: Samia Hawisa
Author: Maamar Sidati
Author: Bashir Lwaleed ORCID iD
Author: Salah Azwai
Author: Ibrahim Eldaghayes
Author: Fatim Gammoudi
Author: Aboubaker Garbaj
Author: Musa Alkasak
Author: Ezdehar Althaluti

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