Akt and SHP-1 are DC-intrinsic checkpoints for tumor immunity
Yaron Carmi, Tyler R. Prestwood, Matthew H. Spitzer, Ian L. Linde, Jonathan Chabon, Nathan E. Reticker-Flynn, Nupur Bhattacharya, Hong Zhang, Xiangyue Zhang, Pamela A. Basto, Bryan M. Burt, Michael N. Alonso, Edgar G. Engleman
Yaron Carmi, Tyler R. Prestwood, Matthew H. Spitzer, Ian L. Linde, Jonathan Chabon, Nathan E. Reticker-Flynn, Nupur Bhattacharya, Hong Zhang, Xiangyue Zhang, Pamela A. Basto, Bryan M. Burt, Michael N. Alonso, Edgar G. Engleman
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Research Article Immunology Oncology

Akt and SHP-1 are DC-intrinsic checkpoints for tumor immunity

Abstract

BM-derived DC (BMDC) are powerful antigen-presenting cells. When loaded with immune complexes (IC), consisting of tumor antigens bound to antitumor antibody, BMDC induce powerful antitumor immunity in mice. However, attempts to employ this strategy clinically with either tumor-associated DC (TADC) or monocyte-derived DC (MoDC) have been disappointing. To investigate the basis for this phenomenon, we compared the response of BMDC, TADC, and MoDC to tumor IgG-IC. Our findings revealed, in both mice and humans, that upon exposure to IgG-IC, BMDC internalized the IC, increased costimulatory molecule expression, and stimulated autologous T cells. In contrast, TADC and, surprisingly, MoDC remained inert upon contact with IC due to dysfunctional signaling following engagement of Fcγ receptors. Such dysfunction is associated with elevated levels of the Src homology region 2 domain–containing phosphatase-1 (SHP-1) and phosphatases regulating Akt activation. Indeed, concomitant inhibition of both SHP-1 and phosphatases that regulate Akt activation conferred upon TADC and MoDC the capacity to take up and process IC and induce antitumor immunity in vivo. This work identifies the molecular checkpoints that govern activation of MoDC and TADC and their capacity to elicit T cell immunity.

Authors

Yaron Carmi, Tyler R. Prestwood, Matthew H. Spitzer, Ian L. Linde, Jonathan Chabon, Nathan E. Reticker-Flynn, Nupur Bhattacharya, Hong Zhang, Xiangyue Zhang, Pamela A. Basto, Bryan M. Burt, Michael N. Alonso, Edgar G. Engleman

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Figure 2

AlloIgG-IC-loaded BMDC induce T cell immunity to prevent tumor recurrence.

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AlloIgG-IC-loaded BMDC induce T cell immunity to prevent tumor recurrenc...
(A) Experimental design: Tumor-resected mice were left untreated or were injected s.c. with DC subsets from naive mice preactivated with corresponding tumor cells bound with allogeneic IgG in immune complexes (alloIgG-IC). (B) The rates of tumor recurrence in untreated tumor-resected mice or in mice injected with BM-derived DC (BMDC), patrolling blood monocyte-derived DC (Patrolling DC), inflammatory blood monocyte-derived DC (Inflammatory DC), or tumor-associated DC (TADC) preactivated with alloIgG-IC. Significance was determined by the log-rank Mantel-Cox test using Bonferroni-adjusted P values. (C) Experimental design: Sorted DC subsets were activated with alloIgG-IC overnight, washed, and incubated with splenic CD4+ T cells at a 1:5 ratio for an additional 6 to 7 days. (D) T cell proliferation and (E) IFN-γ secretion following incubation with alloIgG-IC-activated DC. Shown is 1 representative experiment of 4 independent experiments performed (n = 3 in each treatment). Statistical significance was determined by 2-way ANOVA with Tukey’s multiple comparisons test. *P < 0.05, **P < 0.01, ****P < 0.0001.