Increased frequency of regulatory T Cells and selection of highly potent CD62L+ cells during treatment of human lung transplant recipients with rapamycin

Lange, Christian; Tran, Thuy Yen Vy; Farnik, Harald; Jungblut, Sven; Born, Torsten; Wagner, Thomas; Hirche, Tim O.

doi:10.1111/j.1432-2277.2009.00973.x

Cited by 15 publications

(15 citation statements)

References 34 publications

(43 reference statements)

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“…This down-regulation of immunity to vector-mediated dystrophin expression may be mediated by Treg cells, as the ratios of Treg cells to both CD4 + and CD8 + effector T cell populations increased in RAPA-treated, vector-injected TA muscles compared to the mice that received either only the vector, or blank beads and vector. The effect of RAPA on selective survival of Treg cells, which can then lead to the increase of their ratio over effector CD4 and CD8 T cells shown in our study, is in agreement with previous findings where RAPA induced preferential expansion of Treg cells in other studied tissues21223132. Furthermore, this study demonstrates RAPA bead-mediated suppression of humoral immunity specific to recombinant murine dystrophin expression, although variability between mice and small sample size limit the strength of conclusions that can be drawn from this observation.…”

Section: Discussionsupporting

confidence: 94%

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Effect of rapamycin on immunity induced by vector-mediated dystrophin expression in mdx skeletal muscle

Eghtesad

Jhunjhunwala

Little

et al. 2012

Sci Rep

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Duchenne muscular dystrophy (DMD) is caused by mutations in the dystrophin gene. Therapeutic gene replacement of a dystrophin cDNA into dystrophic muscle can provide functional dystrophin protein to the tissue. However, vector-mediated gene transfer is limited by anti-vector and anti-transgene host immunity that causes rejection of the therapeutic protein. We hypothesized that rapamycin (RAPA) would diminish immunity due to vector-delivered recombinant dystrophin in the adult mdx mouse model for DMD. To test this hypothesis, we injected limb muscle of mdx mice with RAPA-containing, poly-lactic-co-glycolic acid (PLGA) microparticles prior to dystrophin gene transfer and analyzed treated tissue after 6 weeks. RAPA decreased host immunity against vector-mediated dystrophin protein, as demonstrated by decreased cellular infiltrates and decreased anti-dystrophin antibody production. The interpretation of the effect of RAPA on recombinant dystrophin expression was complex because of an effect of PLGA microparticles.

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Section: Discussionsupporting

confidence: 94%

“…The immunosuppressive drug, RAPA, has demonstrated suppression of immunity in multiple clinical applications2021. Mechanisms of action of RAPA for immune suppression include Treg expansion, inhibition of effector T cell activation and proliferation, and prevention of inflammatory cytokine production222324.…”

Section: Discussionmentioning

confidence: 99%

Effect of rapamycin on immunity induced by vector-mediated dystrophin expression in mdx skeletal muscle

Eghtesad

Jhunjhunwala

Little

et al. 2012

Sci Rep

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“…Furthermore, RAPA has been used widely in various studies to expand or select for Foxp3 + Tregs (15,16,(31)(32)(33). In contrast to the inhibitory effect of RAPA on proliferation of effector T cells, Tregs proliferate and function in the presence of RAPA (15,16,26,33 We demonstrated that RAPA administration ameliorated the dystrophic phenotype of mdx muscle. There was a significant reduction of muscle fiber necrosis in both TA and Dia muscles of the mdx mouse.…”

Section: Discussionmentioning

confidence: 77%

“…The activation of mTOR by phosphorylation in the presence of energy, nutrients or growth factors is known to be important for muscle fiber growth (26), and RAPA can block this activation. Therefore, we examined the level of mTOR activation in TA and Dia muscles of 6-wk-old (during active necrosis) and 12-wk-old (after the peak of active necrosis) age-matched untreated mdx and wild-type B10 mice.…”

Section: Mtor Activation Differs Between Ta and Dia Muscles Of MDX Mousementioning

confidence: 99%

Rapamycin Ameliorates Dystrophic Phenotype in mdx Mouse Skeletal Muscle

Eghtesad

Jhunjhunwala

Little

et al. 2011

Mol Med

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Duchenne muscular dystrophy (DMD) is an X-linked, lethal, degenerative disease that results from mutations in the dystrophin gene, causing necrosis and inflammation in skeletal muscle tissue. Treatments that reduce muscle fiber destruction and immune cell infiltration can ameliorate DMD pathology. We treated the mdx mouse, a model for DMD, with the immunosuppressant drug rapamycin (RAPA) both locally and systemically to examine its effects on dystrophic mdx muscles. We observed a significant reduction of muscle fiber necrosis in treated mdx mouse tibialis anterior (TA) and diaphragm (Dia) muscles 6 wks post-treatment. This effect was associated with a significant reduction in infiltration of effector CD4 + and CD8 + T cells in skeletal muscle tissue, while Foxp3 + regulatory T cells were preserved. Because RAPA exerts its effects through the mammalian target of RAPA (mTOR), we studied the activation of mTOR in mdx TA and Dia with and without RAPA treatment. Surprisingly, mTOR activation levels in mdx TA were not different from control C57BL/10 (B10). However, mTOR activation was different in Dia between mdx and B10; mTOR activation levels did not rise between 6 and 12 wks of age in mdx Dia muscle, whereas a rise in mTOR activation level was observed in B10 Dia muscle. Furthermore, mdx Dia, but not TA, muscle mTOR activation was responsive to RAPA treatment.

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“…Rapa is routinely used in the clinics to prevent allograft rejection(51), and is currently being tested as a therapy for autoimmunity(52, 53). In most reports, the clinical formulation of rapa (Sirolimus) boosts both number and function of Tregs (53-55).…”

Section: Discussionmentioning

confidence: 99%

Ex Vivo–Expanded but Not In Vitro–Induced Human Regulatory T Cells Are Candidates for Cell Therapy in Autoimmune Diseases Thanks to Stable Demethylation of the FOXP3 Regulatory T Cell–Specific Demethylated Region

Rossetti

Spreafico

Saidin

et al. 2015

The Journal of Immunology

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Treg1 cell therapy is a promising approach for transplant rejection and severe autoimmunity. Unfortunately, clinically meaningful Treg numbers can be obtained only upon in vitro culture. Functional stability of human expanded (e)Tregs2 and induced (i)Tregs3 has not been thoroughly addressed for all proposed protocols, hindering clinical translation. We undertook a systematic comparison of eTregs and iTregs to recommend the most suitable for clinical implementation, and then tested their effectiveness and feasibility in rheumatoid arthritis (RA)4. Regardless of the treatment, iTregs acquired suppressive function and FOXP3 expression, but lost them upon secondary restimulation in the absence of differentiation factors, which mimics in vivo reactivation. In contrast, eTregs expanded in the presence of Rapamycin (rapa)5 retained their regulatory properties and FOXP3 demethylation upon restimulation with no stabilizing agent. FOXP3 demethylation predicted Treg functional stability upon secondary TCR engagement. Rapa eTregs suppressed conventional T cell (Tconv)6 proliferation via both surface (CTLA-4) and secreted (IL-10, TGF-β and IL-35) mediators, similarly to ex vivo Tregs. Importantly, Treg expansion with rapa from RA patients produced functionally stable Tregs with yields comparable to healthy donors (HD)7. Moreover, rapa eTregs from RA patients were resistant to suppression reversal by the pro-inflammatory cytokine TNF-α, and were more efficient in suppressing synovial Tconv proliferation compared to their ex vivo counterparts, suggesting that rapa improves both Treg function and stability. In conclusion, our data indicate Treg expansion with rapa as the protocol of choice for clinical application in rheumatological settings, with assessment of FOXP3 demethylation as a necessary quality control step.

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Increased frequency of regulatory T Cells and selection of highly potent CD62L+ cells during treatment of human lung transplant recipients with rapamycin

Cited by 15 publications

References 34 publications

Effect of rapamycin on immunity induced by vector-mediated dystrophin expression in mdx skeletal muscle

Effect of rapamycin on immunity induced by vector-mediated dystrophin expression in mdx skeletal muscle

Rapamycin Ameliorates Dystrophic Phenotype in mdx Mouse Skeletal Muscle

Ex Vivo–Expanded but Not In Vitro–Induced Human Regulatory T Cells Are Candidates for Cell Therapy in Autoimmune Diseases Thanks to Stable Demethylation of the FOXP3 Regulatory T Cell–Specific Demethylated Region

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