Abstract
The ability of the Lentivirus HIV-1 to inhibit T-cell activation by its gp41 fusion protein is well documented, yet limited data exists regarding other viral fusion proteins. HIV-1 utilizes membrane binding region of gp41 to inhibit T-cell receptor (TCR) complex activation. Here we examined whether this T-cell suppression strategy is unique to the HIV-1 gp41. We focused on T-cell modulation by the gp21 fusion peptide (FP) of the Human T-lymphotropic Virus 1 (HTLV-1), a Deltaretrovirus that like HIV infects CD4+ T-cells. Using mouse and human in-vitro T-cell models together with in-vivo T-cell hyper activation mouse model, we reveal that HTLV-1’s FP inhibits T-cell activation and unlike the HIV FP, bypasses the TCR complex. HTLV FP inhibition induces a decrease in Th1 and an elevation in Th2 responses observed in mRNA, cytokine and transcription factor profiles. Administration of the HTLV FP in a T-cell hyper activation mouse model of multiple sclerosis alleviated symptoms and delayed disease onset. We further pinpointed the modulatory region within HTLV-1’s FP to the same region previously identified as the HIV-1 FP active region, suggesting that through convergent evolution both viruses have obtained the ability to modulate T-cells using the same region of their fusion protein. Overall, our findings suggest that fusion protein based T-cell modulation may be a common viral trait.
Highlights
The mutual evolutionary pressure between viruses and their hosts has driven viruses to adopt various immune evasion mechanisms [1,2,3,4]
In this study we examined the T-cell inhibitory activity of the envelope protein of the Human T-lymphotropic virus 1 (HTLV-1), which infects T-cells
We focused on a functionally conserved region of HTLV’s and HIV’s fusion proteins, the fusion peptide (FP)
Summary
The mutual evolutionary pressure between viruses and their hosts has driven viruses to adopt various immune evasion mechanisms [1,2,3,4]. One of the most studied glycoproteins in this aspect is HIV’s gp, which aside from its crucial role in virus-cell membrane fusion [6, 7], was shown to inhibit T-cell activity. This was proposed to occur during the fusion process using several membrane interacting segments [8,9,10], including the fusion peptide (FP) [11, 12] (reviewed in [9]). We hypothesized that other human enveloped viruses might share HIV’s strategy of immune suppression
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