Augmented antiviral T cell immunity by oral administration of IMM-124E in preclinical models and a phase I/IIa clinical trial: A method for the prevention and treatment of COVID-19.
Yuval IshayAssaf PotruchSarah Weksler-ZangenYehudit ShabatYaron IlanPublished in: Drug development research (2021)
Biological adjuvants that target the gut immune system are being developed for modulating the immune system. Hyperimmune bovine colostrum (HBC), produced by harvesting the bovine colostrum of dairy cows immunized to exogenous antigens, has been shown to modulate the immune responses and alleviate immune-mediated organ damages. The aim of the present study was to determine the ability of HBC to promote antiviral interferonγ (IFNγ) T cell responses. In a preclinical study, mice were orally administered with HBC for 5 days and tested for the number of T cell clones secreting IFNγ in response to viral antigens of the swine flu, New Caledonia influenza, and cytomegalovirus. In a phase I/IIa clinical trial, five healthy volunteers were treated for 5 days with HBC followed by testing the anti-coronavirus disease (COVID-19) immunity. In the preclinical study, oral administration of HBC augmented the number of T cell clones secreting IFNγ in response to viral antigens. In the clinical trial, oral administration of HBC to healthy males significantly increased the number of anti-COVID-19 spike protein IFNγ positive T cell clones. Oral administration of HBC provides a novel method for augmenting antiviral responses. Its high-safety profile makes it ideal for all disease stages and for pre-emptive therapy among medical personnel and other workers who are at a high risk of exposure to infections. The relatively low cost of HBC is expected to minimize care provider burdens, costs, and enable its global application.
Keyphrases
- coronavirus disease
- clinical trial
- dendritic cells
- immune response
- sars cov
- healthcare
- low cost
- type diabetes
- open label
- primary care
- respiratory syndrome coronavirus
- dairy cows
- palliative care
- cell therapy
- phase ii
- study protocol
- inflammatory response
- bone marrow
- human milk
- signaling pathway
- insulin resistance
- newly diagnosed
- quantum dots
- pain management
- skeletal muscle