CD8+ T cells become functionally impaired or “exhausted” in chronic infections, accompanied by unwanted body weight reduction and muscle mass loss. Whether muscle regulates T cell exhaustion remains incompletely understood. We report that mouse skeletal muscle increased interleukin (IL)–15 production during LCMV clone 13 chronic infection. Muscle-specific ablation of Il15 enhanced the CD8+ T cell exhaustion phenotype. Muscle-derived IL-15 was required to maintain a population of CD8+CD103+ muscle-infiltrating lymphocytes (MILs). MILs resided in a less inflamed microenvironment, expressed more T cell factor 1 (Tcf1), and had higher proliferative potential than splenic T cells. MILs differentiated into functional effector T cells after reentering lymphoid tissues. Increasing muscle mass via muscle-specific inhibition of TGFβ signaling enhanced IL-15 production and antiviral CD8+ T cell responses. We conclude that skeletal muscle antagonizes T cell exhaustion by protecting T cell proliferative potential from inflammation and replenishing the effector T cell progeny pool in lymphoid organs.
Highlights d CD8 + T cell function and survival is impaired in HSAN-I patients with SPTLC2 mutation d Mouse CD8 + T cells require SPTLC2 to protect against viral infections d SPTLC2-mediated sphingolipid synthesis prevents mTORC1 hyperactivation and cell death d Sphingolipid supplementation restores SPTLC2-deficient CD8 + T cell effector function
T cells become functionally exhausted in tumors, limiting T cell–based immunotherapies. Although several transcription factors regulating the exhausted T (T
ex
) cell differentiation are known, comparatively little is known about the regulators of T
ex
cell survival. Here, we reported that the regulator of G protein signaling 16 (Rgs-16) suppressed T
ex
cell survival in tumors. By performing lineage tracing using reporter mice in which mCherry marked Rgs16-expressing cells, we identified that Rgs16
+
CD8
+
tumor-infiltrating lymphocytes (TILs) were terminally differentiated, expressed low levels of T cell factor 1 (Tcf1), and underwent apoptosis as early as 6 days after the onset of Rgs16 expression.
Rgs16
deficiency inhibited CD8
+
T cell apoptosis and promoted antitumor effector functions of CD8
+
T cells. Furthermore,
Rgs16
deficiency synergized with programmed cell death protein 1 (PD-1) blockade to enhance antitumor CD8
+
T cell responses. Proteomics revealed that Rgs16 interacted with the scaffold protein IQGAP1, suppressed the recruitment of Ras and B-Raf, and inhibited Erk1 activation.
Rgs16
deficiency enhanced antitumor CD8
+
TIL survival in an Erk1-dependent manner. Loss of function of Erk1 decreased antitumor functions of
Rgs16
-deficient CD8
+
T cells.
RGS16
mRNA expression levels in CD8
+
TILs of patients with melanoma negatively correlated with genes associated with T cell stemness, such as
SELL
,
TCF7
, and
IL7R
, and predicted low responses to PD-1 blockade. This study uncovers Rgs16 as an inhibitor of T
ex
cell survival in tumors and has implications for improving T cell–based immunotherapies.
Increasing evidence suggests that lipid homeostasis is critical for protein quality control. Very-long-chain fatty acids (VLCFA) are rare and poorly understood species. Here, it is shown that dysregulation of VLCFA metabolism causes increased membrane saturation, endoplasmic reticulum stress, and unfolded protein response induction.
The lipid droplet phospholipase Lpl1 is identified as a novel component of the proteotoxic stress response mediated by Rpn4. Lpl1 regulates both protein degradation and lipid droplet homeostasis. These results suggest that dynamic regulation of lipid droplets may be an important aspect of the cellular response to misfolded proteins.
While the immunosuppressive function of regulatory T (Treg) cells has been extensively studied, their immune-supportive roles have been less well investigated. Using a lymphocytic choriomeningitis virus (LCMV) Armstrong infection mouse model, we found that Treg cell-derived interleukin (IL)-15 is required for long-term maintenance of the KLRG1 + IL-7Rα − CD62L − terminal effector memory CD8 + T (tTEM) cell subset, but dispensable for the suppressive function of Treg cells themselves. In contrast, deletion of Il15 from other sources, including myeloid cells and muscles, did not affect the composition of the memory CD8 + T cell pool. Our findings identify Treg cells as an essential IL-15 source maintaining tTEM cells and suggest that Treg cells promote the diversity of immunological memory.
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