Multiple pathways to tumor immunity and concomitant autoimmunity

Turk, Mary Jo; Wolchok, Jedd D.; Guevara-Patiño, José A.; Goldberg, Stacie M.; Houghton, Alan N.

doi:10.1034/j.1600-065x.2002.18811.x

Cited by 75 publications

(61 citation statements)

References 46 publications

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“…Anti-tumor responses often result in Ig production against self antigens expressed in tumor cells [28][29][30]. Thus, our observations of reduced autoantibody titers in p53 -/-lpr mice are consistent with the observation of decreased Ig deposition in tumors of p53 -/-mice (a possible indication of decreased autoantibody deposition in tumors) [16].…”

Section: Discussionsupporting

confidence: 76%

p53 is required for spontaneous autoantibody production in B6/lpr lupus mice

Kuan

Cohen

2005

Eur J Immunol

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The p53 tumor suppressor molecule triggers a key pathway of apoptosis in injured cells, in part through induction of Fas. The importance of Fas as a receptor mediating apoptosis is highlighted by the lupus-like systemic autoimmunity seen in animals and humans with nonfunctional Fas molecules. We set out to see if the absence of p53, superimposed on the Fas defect of lpr mice, might further accelerate or exacerbate their systemic autoimmunity. We generated double mutant mice (p53 -/-lpr) having defects in both p53-and Fas-dependent pathways, hypothesizing that animals with lesions in both Fas-and p53-dependent pathways would show reduced ability to delete autoreactive or injured cells, thereby producing more severe autoimmune disease. Surprisingly, these mice have lower autoantibody levels than the single mutant lpr mice. These studies suggest an unanticipated role for p53 in the progression of autoimmunity and the production of autoantibodies.

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Section: Discussionsupporting

confidence: 76%

p53 is required for spontaneous autoantibody production in B6/lpr lupus mice

Kuan

Cohen

2005

Eur J Immunol

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“…There are a number of vaccination models for melanoma rejection, which have demonstrated successful therapeutic activity with concurrent depigmentation (22,33). It has also been demonstrated that the activation of CD4 ϩ T cells is critical during the immunization phase of the immune response, though other cells may be required in the effector phase (35,76). As a direct result of experimental findings and the isolation of Ag-specific cytotoxic CD8 ϩ T cells from melanoma patients, a concerted effort has focused on the development of therapeutics directed at augmenting cytotoxic CD8 ϩ T cell activity (5,8,20,77).…”

Section: Discussionmentioning

confidence: 99%

“…Soluble HEL (Ͼ0.5 ng/ml) was detected in the serum of 1 of 10 TrpHEL1 and 1 of 12 TrpHEL2 mice (data not shown), suggesting that HEL is relatively well sequestered in the skin. Immunization with melanocyte-specific Ags and adjuvant has been shown to induce depigmentation in a number of mouse models (33)(34)(35)(36). However, immunizing adult TrpHEL1 mice with HEL in CFA resulted in only one mouse of eight tested developing depigmentation, and the diffuse pattern of graying was unlike spontaneous vitiligo (data not shown).…”

Section: The Generation Of Mice Expressing a Melanocyte Neoantigenmentioning

confidence: 93%

CD4 T Cell-Dependent Autoimmunity against a Melanocyte Neoantigen Induces Spontaneous Vitiligo and Depends upon Fas-Fas Ligand Interactions

Lambe

Leung

Bouriez-Jones

et al. 2006

The Journal of Immunology

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Better understanding of tolerance and autoimmunity toward melanocyte-specific Ags is needed to develop effective treatment for vitiligo and malignant melanoma; yet, a systematic assessment of these mechanisms has been hampered by the difficulty in tracking autoreactive T cells. To address this issue, we have generated transgenic mice that express hen egg lysozyme as a melanocyte-specific neoantigen. By crossing these animals to a hen egg lysozyme-specific CD4 TCR transgenic line we have been able to track autoreactive CD4+ T cells from their development in the thymus to their involvement in spontaneous autoimmune disease with striking similarity to human vitiligo vulgaris and Vogt-Koyanagi-Harada syndrome. Our findings show that CD4-dependent destruction of melanocytes is partially inhibited by blocking Fas-Fas ligand interactions and also highlights the importance of local control of autoimmunity, as vitiligo remains patchy and never proceeds to confluence even when Ag and autoreactive CD4+ T cells are abundant. Immune therapy to enhance or suppress melanocyte-specific T cells can be directed at a series of semiredundant pathways involving tolerance and cell death.

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“…These APC transport internalized TAA to draining lymph nodes where they present TAA peptides for the activation of tumor-specific cytotoxic and helper T cells at levels sufficient to overcome suppressive Treg activity (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11). We have developed a novel method for achieving immune-mediated destruction of tumor lesions, recruitment of APC into the lesions, effective intratumoral targeting of TAA to recruited APC, and induction of a protective anti-tumor immune response by exploiting the naturally produced anti-Gal Ab.…”

Section: Intratumoral Injection Of ␣-Gal Glycolipids Induces Xenografmentioning

confidence: 99%

Intratumoral Injection of α-gal Glycolipids Induces Xenograft-Like Destruction and Conversion of Lesions into Endogenous Vaccines

Galili

Wigglesworth²,

Abdel-Motal³

2007

The Journal of Immunology

134

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This study describes a novel cancer immunotherapy treatment that exploits the natural anti-Gal Ab to destroy tumor lesions and convert them into an endogenous vaccine targeted to APC via FcγR. Anti-Gal constitutes 1% of immunoglobulins in humans and interacts specifically with α-gal epitopes (Galα1-3Galβ1-4GlcNAc-R). The binding of anti-Gal to α-gal epitopes on pig cells mediates xenograft rejection. The proposed method uses glycolipid micelles with multiple α-gal epitopes (α-gal glycolipids). These glycolipids are extracted from rabbit red cell membranes and are comprised of ceramides with carbohydrate chains containing 5–25 carbohydrates, all capped with α-gal epitopes. Efficacy of this treatment was demonstrated in α1,3-galactosyltransferase knockout mice producing anti-Gal and bearing B16 melanoma or B16/OVA producing OVA as a surrogate tumor Ag. These mice are unique among nonprimate mammals in that, similar to humans, they lack α-gal epitopes and can produce the anti-Gal Ab. Intratumoral injection of α-gal glycolipids results in local inflammation mediated by anti-Gal binding to the multiple α-gal epitopes and activation of complement. These glycolipids spontaneously insert into tumor cell membranes. The binding of anti-Gal to α-gal expressing tumor cells induces the destruction of treated lesions as in anti-Gal-mediated xenograft rejection. Anti-Gal further opsonizes tumor cells within the lesion and, thus, targets them for effective uptake by APC that transport the tumor Ags to draining lymph nodes. APC further cross-present immunogenic tumor Ag peptides and elicit a systemic anti-tumor immune response. Similar intratumoral injection of α-gal glycolipids in humans is likely to induce the destruction of treated lesions and elicit a protective immune response against micrometastases.

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Multiple pathways to tumor immunity and concomitant autoimmunity

Cited by 75 publications

References 46 publications

p53 is required for spontaneous autoantibody production in B6/lpr lupus mice

p53 is required for spontaneous autoantibody production in B6/lpr lupus mice

CD4 T Cell-Dependent Autoimmunity against a Melanocyte Neoantigen Induces Spontaneous Vitiligo and Depends upon Fas-Fas Ligand Interactions

Intratumoral Injection of α-gal Glycolipids Induces Xenograft-Like Destruction and Conversion of Lesions into Endogenous Vaccines

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