1. Academic Validation
  2. Combination therapy of zinc and trimethoprim inhibits infection of influenza A virus in chick embryo

Combination therapy of zinc and trimethoprim inhibits infection of influenza A virus in chick embryo

  • Virol J. 2021 Jun 3;18(1):113. doi: 10.1186/s12985-021-01585-1.
Magdi H El Habbal 1
Affiliations

Affiliation

  • 1 Mastropix Health Care, 35 Mew Walk, North Ferriby, HU14 3AH, UK. elhabbel@elhabbel.karoo.co.uk.
Abstract

Background: Respiratory RNA viruses including Influenza Virus have been a cause of health and economic hardships. These viruses depend on its host for replication and Infection. Influenza Virus infection is lethal to the chick embryo. We examined whether a combination of trimethoprim and zinc (Tri-Z), that acts on the host, can reduce the lethal effect of influenza A virus in chick embryo model.

Method: Influenza Virus was isolated from patients and propagated in eggs. We determined viral load that infects 50% of eggs (50% egg lethal dose, ELD50). We introduced 10 ELD50 into embryonated eggs and repeated the experiments using 100 ELD50. A mixture of zinc oxide (Zn) and trimethoprim (TMP) (weight/weight ratios ranged from 0.01 to 0.3, Zn/TMP with increment of 0.1) was tested for embryo survival of the Infection (n = 12 per ratio, in triplicates). Embryo survival was determined by candling eggs daily for 7 days. Controls of Zn, TMP, saline or convalescent serum were conducted in parallel. The effect of Tri-Z on virus binding to its cell surface receptor was evaluated in a hemagglutination inhibition (HAI) assay using chicken red cells. Tri-Z was prepared to concentration of 10 mg TMP and 1.8 mg Zn per ml, then serial dilutions were made. HAI effect was expressed as scores where ++++ = no effect; 0 = complete HAI effect.

Results: TMP, Zn or saline separately had no effect on embryo survival, none of the embryos survived Influenza Virus infection. All embryos treated with convalescent serum survived. Tri-Z, at ratio range of 0.15-0.2 (optimal ratio of 0.18) Zn/TMP, enabled embryos to survive Influenza Virus despite increasing viral load (> 80% survival at optimal ratio). At concentration of 15 µg/ml of optimal ratio, Tri-Z had total HAI effect (scored 0). However, at clinical concentration of 5 µg/ml, Tri-Z had partial HAI effect (+ +).

Conclusion: Acting on host cells, Tri-Z at optimal ratio can reduce the lethal effect of influenza A virus in chick embryo. Tri-Z has HAI effect. These findings suggest that combination of trimethoprim and zinc at optimal ratio can be provided as treatment for influenza and possibly other respiratory RNA viruses Infection in man.

Keywords

Chick embryo; Hemagglutination; Influenza virus; Trimethoprim; Zinc.

Figures
Products