Linked CD4+/CD8+ T cell neoantigen vaccination overcomes immune checkpoint blockade resistance and enables tumor regression.

Therapeutic benefit to immune checkpoint blockade (ICB) is currently limited to the subset of cancers thought to possess a sufficient tumor mutational burden (TMB) to allow for the spontaneous recognition of neoantigens (NeoAg) by autologous T cells. We explored whether the response to ICB of an aggressive low-TMB squamous cell tumor could be improved through combination immunotherapy using functionally defined NeoAg as targets for endogenous CD4+ and CD8+ T cells. We found that, whereas vaccination with CD4+ or CD8+ NeoAg alone did not offer prophylactic or therapeutic immunity, vaccines containing NeoAg recognized by both subsets overcame ICB resistance and led to the eradication of large established tumors that contained a subset of PD-L1+ tumor-initiating cancer stem cells (tCSC), provided the relevant epitopes were physically linked.

Neoantigen-specific stem cell memory-like CD4 T cells mediate CD8 T cell-dependent immunotherapy of MHC class II-negative solid tumors.

CD4 T cells play key roles in a range of immune responses, either as direct effectors or through accessory cells, including CD8 T lymphocytes. In cancer, neoantigen (NeoAg)-specific CD8 T cells capable of direct tumor recognition have been extensively studied, whereas the role of NeoAg-specific CD4 T cells is less well understood. We have characterized the murine CD4 T cell response against a validated NeoAg (CLTC) expressed by the MHC-II-deficient squamous cell carcinoma tumor model (SCC VII) at the level of single T cell receptor (TCR) clonotypes and in the setting of adoptive immunotherapy.

Neuroprotective effect of immunomodulatory peptides in rats with traumatic spinal cord injury.

Several therapies have shown obvious effects on structural conservation contributing to motor functional recovery after spinal cord injury (SCI). Nevertheless, neither strategy has achieved a convincing effect. We purposed a combined therapy of immunomodulatory peptides that individually have shown significant effects on motor functional recovery in rats with SCI.