In short-term infections such as a cold or flu, PD-1 helps to regulate an initial strong T cell response, preventing the T cells from over proliferating and attacking the body's own cells after the infection is cleared. But in patients with cancer or chronic infections, blocking PD-1 has proved a highly successful therapeutic strategy that allows the T cells to fight on. "Blocking this pathway reverses T cell exhaustion and improves tumor immunity in humans and antiviral and anti-tumor responses in animal models," Wherry notes. "But a key question has been whether this PD-1 pathway causes exhaustion. Our work shows that it does not."
Wherry and his collaborators used PD-1 knockout mice infected with lymphocytic choriomeningitis virus to see whether the genetic deletion of PD-1 would be enough to prevent T cell exhaustion. They observed a robust initial T cell response, but with a cost. "While transient disruption of this pathway may have therapeutic benefit because it temporarily 'revs up' the immune response, permanent loss of PD-1 signals seems to result in a 'flame out' where T cells can't sustain higher level activation and become more dysfunctional," Wherry says.
After a month or so, he explains, "the advantages in proliferation and other signaling pathways that cells had without PD-1 go away." Without the regulatory influence of PD-1, the over activated and over stimulated T cells result in disruption of a crucial balance between different T cell types that leads to an overall greatly reduced immune response.
The work demonstrates that even with the clinical successes of blocking PD-1, there may be a better, more refined therapeutic strategy to target the PD-1 pathway. "We know that transient blockade has tremendous benefit," Wherry says. "But we also knew that there are subtypes of exhausted T cells that can or cannot be 'revitalized' by transient PD-1 blockade.
Our new work shows that PD-1 signals help regulate this balance." In effect, PD-1 may actually help to preserve a "reserve force" of T cells that can fight on later in the long-term cellular war between the immune system and foreign invaders or tumors.
Aside from helping to better design PD-1 blockade treatments, Wherry's findings have also helped to identify potential biomarkers in the PD-1 signaling pathway. This additional information will help in the next steps of the research, which involve more detailed study of the PD-1 at different points in its pathway and with different viral or tumor loads. "We still don’t know the molecular signals downstream of PD-1 in vivo or how PD-1 signals intersect with other immunotherapies," Wherry says. "We are actively addressing these questions."
Co-authors are Pamela M. Odorizzi, Kristen E. Pauken, and Michael A. Paley, all from Penn and Arlene Sharpe, Harvard Medical School. This work was funded by a T32 HIV Pathogenesis training grant, a Robertson Foundation/Cancer Research Institute Irvington Fellowship and the National Institutes of Health (AI105343, AI112521, AI117718, AI082630, AI095608, HHSN266200500030C). Dr. Wherry has a patent licensing agreement on the PD-1 pathway, and the authors declare no additional competing financial interests.
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AI105343, AI112521, AI117718, AI082630, AI095608, HHSN266200500030C; Journal of Experimental Medicine<