Multi-Component Vaccines for Suppression of Type 1 Diabetes

Many individual therapeutic strategies involving oral delivery of diabetes autoantigens such as insulin and GAD have been shown to provide partial short term suppression of organ specific type 1 diabetes autoimmunity (Weiner et al. 1991; Zhang et al. 1991; Nakayama et al. 2005). However, few individual therapies have been able to demonstrate effective, safe and persistent protection against type 1 diabetes onset or progression (Hutchings and Cooke 1998). More recently, combinatorial therapeutic strategies that incorporate immunostimulatory molecules such as the cholera toxin B subunit (CTB), linked to a diabetes autoantigen (eg. insulin or GAD), were shown to substantially enhance immune suppression of juvenile (Type 1) diabetes autoimmunity to provide more effective, safe and sustainable disease prevention (Arakawa et al. 1998; Denes et al. 2006). Combinatorial vaccines involving oral delivery of the cholera toxin B subunit (CTB) linked to pancreatic autoantigens such as proinsulin and GAD delivered together were shown to provide additive enhancement of autoantigen mediated suppression of diabetes insulitis and hyperglycemia in contrast to inoculation of prediabetic mice with CTB::GAD or CTB::proinsulin alone (Arakawa, Chong, and Langridge 1998). Most recently, combinatorial DNA vaccination experiments including genes encoding CTB::GAD together with the immunosuppressive cytokine IL-10 were shown to completely suppress type 1 diabetes onset in non-obese prediabetic (NOD) mice (Denes et al. 2010). Thus, it is now clear that combinatorial vaccination strategies have the ability to completely prevent diabetes onset in genetically susceptible mammals. However, to harness and transfer this promising combinatorial vaccination strategy for effective and safe clinical therapy in type 1 diabetes patients, cellular and molecular mechanisms underlying multi-component vaccine stimulation of immunological tolerance must be defined. Initial steps required to attain this goal, will involve identification of mechanisms responsible for vaccine interactions with cells of the innate immune system i.e., dendritic cells (DCs), involved in the initial processing vaccine autoantigens. In order to understand how multi-component vaccines may function to prevent the development of chronic islet inflammation (insulitis) progressing to high blood sugar (hyperglycemia), it will be important to understand the nature of immune responses underlying type 1 diabetes disease onset. To accomplish this goal, hypotheses must be tested that suggest how adjuvant-autoantigen fusion proteins may enhance immunotolerance e.g.

inactivated (Tang et al. 2006).Approximately 3 million Americans, or about 15-20% of citizens currently afflicted with all forms of diabetes, suffer from type 1 diabetes and > 13,000 children are diagnosed with type 1 diabetes in the U.S. annually -(about 35 children / day), (International 2005).Alarmingly, type 1 diabetes in pre-adolescent children is increasing at about 0.3-0.5% annually, (Gale 2002;International 2005).Familial inheritance studies show that genetic predisposition factors (genotype DRB1*0301/04, DQB1*0201/0302), play a significant role in T1D development (Rewers et al. 1996).At least 15 genetic loci have been linked to T1D in the non-obese diabetic (NOD) mouse, a relevant mammalian T1D model (Makino et al. 1980).In humans, genetic risk factors were identified in the leukocyte antigen (HLA) complex on chromosome 6, CTLA-4 gene polymorphisms on chromosome 2, and in the insulin gene variable number tandem repeat region on chromosome 11 (Onengut-Gumuscu and Concannon 2002).Since Type 1 diabetes ranges from 23 -53% among monozygotic twins, genetic risk factors are insufficient to account for disease occurrence (Tatersall R. B. 1972).Environmental factors, including virus infection and dietary components are considered to modify diabetes susceptibility (Jun and Yoon 2001;Akerblom HK 2002).Cytotoxic CD8+ T cells were shown to be involved in diabetes initiation and progression (Walter and Santamaria 2005).Further, recruitment of naïve diabetogenic -cell-reactive CTLs to the pancreatic islets were shown to require -cell-reactive CD4+ Th1 cells (Delovitch and Singh 1997).Following CD4 + Th cell infiltration of pancreatic islets in NOD mice, autoreactive Th1 lymphocytes were shown to secrete inflammatory cytokines IFN- and IL-2 that stimulate macrophage and CTL secretion of oxidative compounds and inflammatory cytokines that induce chronic pancreatic inflammation (insulitis), ultimately responsible for apoptosis of islet insulin-producing -cells (Romagnani 1998).Diabetes onset is not always marked by circulating auto-Ab to -cell autoantigens and a variety of immune cells including B cells, dendritic cells, macrophages and natural killer (NK) cells have been shown to be involved in diabetes pathogenesis (Yoon, Jun, and Santamaria 1998;Dai, Carayanniotis, and Sercarz 2005;Tian et al. 2006;Silveira and Grey 2006;Cardell 2006).A recently identified rat diabetes model was shown to be quantitatively up-regulated from 2.0 -100% diabetes by antibody depletion of regulatory T cells suggesting a significant role for regulatory T cells in diabetes suppression (Mordes et al. 2005).Thus, dendritic cell, autoreactive T cell, T regulatory cell and B cell pathways may all interact to establish or break immunological homeostasis (Mostarica-Stojkovic 2005).

Diabetes autoantigen therapy can restore immunological tolerance
While, deletion of autoreactive T cells is generally achieved in the thymus (central tolerance), a few autoreactive T lymphocytes escape deletion and appear in the periphery (Song et al. 2004).Interestingly, autoreactive T cell clones specific for self-proteins were shown to arise spontaneously from normal peripheral blood mononuclear cells in healthy people (Wucherpfennig et al. 1994).Thus, autoimmunity may have the opportunity to exist to some degree in everyone.Insulin was shown to be an early major diabetes autoantigen (Palmer et al. 1983;Jaeckel, Lipes, and von Boehmer 2004;Jaeckel et al. 2003;Kent et al. 2005).The insulin leader, A, B and C protein chains all were shown to contain CD4+ and CD8+ immunodominant T cell epitopes (Di Lorenzo, Peakman, and Roep 2007).Progressive islet -cell destruction was shown to lead to the appearance of additional -cell autoantigens (Ag spreading), a factor that exacerbates -cell destruction (Baekkeskov et al. 1990).Immunotherapy with major -cell antigens such as insulin, glutamate decarboxylase (GAD), or heat shock protein (hsp60), was shown to delay or even prevent the onset of type 1 diabetes, providing a potentially useful therapeutic approach to treatment of T cellmediated autoimmunity (Elliott et al. 1994;Tisch and McDevitt 1996).Oral inoculation with small amounts of islet autoantigens was shown to induce self-tolerance through IL-4 and Stat 6 activation of CD4 + Th2 and Th3 regulatory T cells that down-modulate autoreactive effector T cell inflammation at close proximity e.g., "bystander suppression", (Hommann et al. 2001;Weiner 2001).Protection against T1D was shown to be associated with Th3 regulatory lymphocyte secretion of TGF- in prediabetic NOD mice gavaged with insulin, (Zhang et al. 1991).Further, oral auto-Ag inoculation generated partial diabetes suppression in patients (Millington, Mowat, and Garside 2004;Chaillous et al. 2000).In several related Th1 cell mediated autoimmune diseases, collagen-induced arthritis (Thompson and Staines 1986) and encephalomyelitis (Higgins and Weiner 1988) disease suppression was observed after prolonged feeding of small amounts of specific auto-Ags.The induction of multiple sclerosis in animals was not only halted but reversed by feeding small amounts of myelin basic protein suggesting that this type of oral auto-Ag therapy can suppress and even aid in recovery from autoimmunity (Bitar and Whitacre 1988).

Cholera toxin B subunit (CTB), enhances autoantigen mediated immunotolerance
Immunotherapy with adjuvants such as Complete Freund's Adjuvant (CFA) co-injected intradermally with insulin, or inoculation with CTB-insulin B chain polypeptide fusion proteins significantly suppressed diabetes early onset demonstrating the usefulness of immunostimulatory molecules in diabetes suppression (Hutchings and Cooke 1998).Additional studies in BB rats suggest that CFA may mediate diabetes suppression through induction of regulatory T cells (Qin et al. 1993).Thus, a number of biological mechanisms may contribute to suppression of autoimmunity.Cholera toxin (CTX), from Vibrio cholerae contains a toxic ADP-ribosyltransferase A subunit (CTA1), linked by a small helical (A2) peptide to a pentamer of non-toxic carrier B subunits (CTB), (Eriksson and Holmgren 2002).CTX induces DC maturation and migration to the Peyer's patches while the CTB subunit was shown to inhibit DC maturation and to bind GM1-ganglioside, a receptor found on most epidermal cells, thereby providing an efficient transmucosal carrier for autoantigen induction of peripheral tolerance (Shreedhar, Kelsall, and Neutra 2003;Lycke 2004;Sun, Holmgren, and Czerkinsky 1994).Oral delivery of CTB was shown to directly stimulate DC induction of T cell IL-4 secretion and to exert a variety of distinct anti-inflammatory effects resulting in immunological suppression (Holmgren et al. 1994;Li and Fox 1996;Holmgren and Czerkinsky 2005).Oral delivery of CTB conjugated to specific autoantigens was shown to protect mice against several Th1 cell mediated autoimmune diseases including autoimmune encephalomyelitis (Sun et al. 1996;Sun et al. 2000), autoimmune chondritis (Kim et al. 2001) and uveitis (Phipps et al. 2003).Further, CTB-insulin conjugates were shown to suppress diabetes in NOD mice (Bergerot et al. 1997;Arakawa, Chong, and Langridge 1998), a result associated with reduced IFN- production and Tr1 regulatory T cell migration into pancreatic islets (Aspord et al. 2002;Roncarolo et al. 2001).Further, linkage of CTB to insulin generated up to a 10,000-fold reduction in autoantigen required for immuno-tolerization (Bergerot et al. 1997;Arakawa et al. 1998;George-Chandy et al. 2001).Thus, current evidence suggests that mechanisms responsible for CTB modulated immune suppression may include inhibition of DC maturation by suppressing the expression of surface co-stimulatory molecules resulting in the increased secretion of IL-10 and a concurrent suppression of IL-12, inhibition of autoreactive T cell development and/or stimulation of Th2 and regulatory T cell proliferation and activation (Marinaro et al. 1995;Lavelle et al. 2003;Odumosu et al. 2010).

Dendritic cells can initiate immunological tolerance
Dendritic cells may play a primary role in antigen priming of naïve T helper cells (Th0) and modulation of their development into autoreactive Th1 or immunosuppressive Th2 lymphocytes important for maintenance of immunological homeostasis (Pulendran et al. 1999;Pulendran et al. 2001;Itano et al. 2003).Immuno-cytochemical analyses showed that oral inoculation of autoantigens results in their uptake from M cells in the intestinal mucosa into peripheral (lamina propria) DCs via several routes that may influence the nature of the immune response (Yoon and Jun 2005).Autoantigens may be taken up and processed by immature, partially activated semi-mature or mature DC subsets (Lutz and Schuler 2002).These DCs may remain in the periphery or migrate to lymph nodes, where they present antigen peptides on MHCII receptors, synthesize co-stimulatory molecules and in the absence of additional cytokine production, may induce the morphogenesis of Ag-specific IL-10 producing CD4+CD25+ T regulatory (Tr1) cells (Enk 2005) Figure 1.Co-stimulation appears to be less or absent for tolerogenic responses, thus, interactions between autoantigens, DCs and T cells in the gut associated lymphoid tissues may result in tolerogenic outcomes following autoAg presentation (Lycke 2004).Peyer's patches DCs that synthesize IL-10 were shown to down-regulate Th1 cell mediated autoimmunity (Steinbrink et al. 1997).Immature or peripheral DCs (iDCs), that had low expression of co-stimulatory molecules, secreted cytokine IL-10, remained in the periphery and were shown to induce Th2 lymphocyte mediated immunological tolerance (Rissoan et al. 1999;Liu et al. 2001;Li et al. 2006).Further studies showed that a major function of peripheral iDCs was maintenance of self-tolerance (Wilson, El-Sukkari, and Villadangos 2004;Steinman and Pope 2002).In alternative, experiments, adding IL-12 to iDCs induced Th1 cell morphogenesis and accelerated type 1 diabetes in NOD mice (Trembleau et al. 1995).In response to microbial antigens, DCs may secrete inflammatory cytokines IL-6 and IL-23 that stimulate naïve Th0 cell development into IL-17 inflammatory cytokine secreting Th17 effector T cells (Figure 1).Th17 cells have been implicated in the induction of organ-specific autoimmune arthritis, multiple sclerosis, psoriasis, and inflammatory bowel disease as well as type 1 diabetes (Cua et al. 2003;Langrish et al. 2005;Duerr et al. 2006;Murphy et al. 2003;Nakae et al. 2003;Zheng et al. 2007;Mensah-Brown, Shahin, Al-Shamisi et al. 2006;Mensah-Brown, Shahin, Al-Shamsi et al. 2006).Together, the experimental evidence suggests development of type 1 diabetes may be under DC control (Shinomiya et al. 1999).However, there is some debate about the role of Th17 cells in diabetogenesis suggesting that Th17 cells are not important in the disease process but rather are plastic cell that become become Th1 (Bending et al. 2009).

CTB enhances immune tolerance by upregulating DC tolerogenic toll-like receptors
Dendritic cells, macrophages, and granulocytes derived from hematopoietic stem cells provide the first line of defense against infectious pathogens attacking mucosal surfaces.Thus, DCs (found in most abundance in the mucosae and skin), must recognize pathogen antigens, autoantigens and innocuous antigens in order to maintain immunological homeostasis.To accomplish this task, DCs bind small conserved pathogen antigen segments; pathogen associated molecular patterns (PAMPS), to their trans-membrane tolllike receptor (TLR) domains, (Takeda, Kaisho, and Akira 2003;Wen et al. 2004).Different PAMPS stimulate specific TLRs that activate one of several DC signal transduction pathways leading to synthesis of transcriptional regulators e.g., NFkB.These transcriptional activators switch on genes encoding specific cytokines, costimulatory molecules and chemokines that enable DCs to direct naïve cognate Th0 cell development into (1) immunoreactive Th1 lymphocytes, (2) immunosuppressive Th2 effector cell and (3) T regulatory cell subsets (Kaisho and Akira 2002).Autoreactive T cells involved in experimental autoimmune encephalomyelitis (EAE) and other chronic inflammatory autoimmune diseases are considered to follow TLR defined pathways of DC processing and auto-Ag presentation triggered by environment signals (Haverkos et al. 2003;Bach 2005).Recently, examination of TLR2 and TLR4 expression in monocytes from T1D patients showed that TLR2 and TLR4 surface expression and mRNAs were significantly increased in T1D monocytes in comparison with the controls (Devaraj et al. 2007).Further, downstream targets of TLRs, NFKb, MyD88, Trif and pIRAK, were also significantly upregulated.Antigen ligation to TLR2 is generally known to induce a Th2 immunosuppressive cytokine profile (Ferwerda et al. 2005).Whether CTB binds and activates TLR2 or TLR4 is presently unknown.However, the structurally similar E. coli AB enterotoxin B subunit (LTB) was shown to stimulate TLR2, resulting in regulatory T cell proliferation which ultimately lead to inhibition of iDC maturation, IL-10 secretion and induction of immunosuppressive Th2 lymphocyte development (Hajishengallis et al. 2005;Sutmuller et al. 2006).Examination of CTB mediated suppression of DC maturation suggests that TLR2 may be selectively upregulated (Odumosu et al. 2010).The observed selectivity may be due to TLR2 dependent hydrophobic interactions for ligand binding as previously observed for the E. coli enterotoxin B subunit LTBIIb (Seong and Matzinger 2004;Okusawa et al. 2004).Alternatively, multiple bacterial products including lipo-polysaccharide (LPS), were shown to undergo DC processing independently of TLR signaling, via stimulation of the pannexin -1 hemi-channel protein-cryopyrin receptor pathway (Kanneganti et al. 2007) Thus, in addition to immunosuppressive TLR receptor binding, alternative signaling pathways could be involved in iDC processing of CTB-INS fusion protein potentially favoring CTB induced DC synthesis of IL-10 leading to induction of Th0 -> Th2 cell morphogenesis and suppression of autoreactive Th1 lymphocyte development ( Figure 2).

Regulatory T cells inhibit dendritic cell maturation
The suppression of autoreactive T cells is essential for establishment of peripheral tolerance and maintenance of immunological homeostasis, (Vigouroux et al. 2004;Stassen et al. 2004).Natural CD4+CD25+ regulatory T cells (nTregs) of thymus origin, have a high avidity for self-antigens and were shown to link central tolerance to induction of regulatory functions in the periphery (Sakaguchi et al. 1995;Sakaguchi and Sakaguchi 2005;Sakaguchi 2005;Taams and Akbar 2005;Bresson et al. 2006).Natural Treg immunosuppressive functions are antigen independent and are largely under control of the forkhead box p3 transcription factor FOXP3 (Fontenot, Gavin and Rudensky 2003;Hori, Nomura and Sakaguchi 2003).While nTregs inhibit DC maturation in an antigen independent manner, they were also shown to be important for down-regulating Th1 cell mediated autoimmunity in thyroiditis, diabetes, encephalomyelitis, and oophoritis (Tarbell et al. 2004).Further, the glucocorticoid-induced tumor necrosis factor receptor (GITR), cytotoxic T-lymphocyte antigen 4 (CTLA-4), and LAG-3 surface markers were identified on antigen-activated nTregs (Nocentini and Riccardi 2005;Huang et al. 2004;Oderup et al. 2006).Further evidence supporting Treg suppression of autoimmunity, mutations in the mouse foxp3 gene resulted in development of systemic autoimmunity, characterized by inflammatory lymphocyte infiltration and destruction of tissues by autoreactive T-cells, leading to spontaneous development of a number of Th1 cell mediated autoimmune diseases including type 1 diabetes (Hori and Sakaguchi 2004;Ehrenstein et al. 2004;Lindley et al. 2005;Viglietta et al. 2004).Incubation of DCs with nTregs increased IL-10 secretion and reduced CD40, CD80/86 costimulatory molecule expression reinforcing the hypothesis that nTregs modulate autoimmunity through suppression of DC immunostimulatory functions (Veldhoen et al. 2006;Misra et al. 2004;Yang et al. 2006).Recent experiments clearly show that Tregs interact with antigen-bearing DCs to prevent naïve autoreactive CD4+CD25 --effector Th0 cell priming (Tang et al. 2006).Adoptive transfer experiments further confirmed nTreg-DC interaction was essential for autoreactive Th1 cell inhibition (Tarbell et al. 2004;Kelsen et al. 2006).Regulation of DC processing of autoantigens, in the absence of sufficient nTregs, requires additional regulatory T cell induction from the CD4+ CD25 --T cell population (Bluestone and Abbas 2003;Filippi, Bresson, and von Herrath 2005) .Two human CD4+CD25+ nTreg subsets were shown to convey immuno-suppressive capabilities to CD4 + CD25 --T cells.Natural Tregs expressing 4 7 integrin induced IL-10 secreting Tr1like suppressor T cells , while nTregs expressing 4 1 integrin induced TGF-secreting Th3like suppressor T cells (Stassen et al. 2004).Secreted TGF-1 was shown to suppress DC activation during maturation (Rastellini et al. 1995;Yamaguchi et al. 1997;King et al. 1998).
Further, TGF-1 inhibited DC expression of chemokine receptor CCR7, responsible for DC migration to lymph nodes (MartIn-Fontecha et al. 2003).Secretion of IL-10 by Tr1 iTregs inhibited DC maturation by blocking IL-12 synthesis and skewing Th1/Th2 polarity toward Th2 cells in vivo by inhibiting both Th1 cell proliferation and monocyte secretion of IFN-, TNF- and IL-2 cytokines (De Smedt et al. 1997;Sela 2006).DCs were shown to expand and differentiate Foxp3+CD25+CD4+ Tregs from Foxp3-CD25-CD4+ thymocytes with specificity for self-antigens presented by thymic medullary DCs maturing in response to thymic stromal lymphopoietin (Watanabe et al. 2005).In vivo, repeated injection of preprocessed peptides (Apostolou and von Boehmer 2004) or the targeting of intact antigens to immature DCs (Kretschmer et al. 2005) convert antigen-specific Foxp3-CD25-CD4+ T cells to Foxp3+CD25+CD4+ Tregs bearing the same TCR.DCs also induce other regulatory populations, such as IL-10-producing Tr1 (Levings et al. 2005;Akbari, DeKruyff, and Umetsu 2001;Akbari et al. 2002;Stock et al. 2004) and IL-10-producing regulatory DCs (Kojo et al. 2005).Diabetes-susceptible NOD mice appear to generate normal numbers of Foxp3 Tcells over their lifetimes (Tritt et al. 2008).However, Piccirillo and his colleagues at McGill University showed that T-cell functional potency declined with age, leaving potential autoimmune responses in the pancreas unchecked.These authors suggest that certain genetic predispositions, coupled with the possible contribution of external environmental factors or infections, could potentially alter regulatory T-cell function in susceptible individuals and trigger a full-scale diabetic autoimmune reaction in the pancreas (Tritt et al. 2008).

Immunosuppressive properties of anti-inflammatory cytokine IL-10
Human IL-10 is a homodimeric anti-inflammatory cytokine protein (molecular structure at left), with a subunit length of 160 amino acids and 73 percent amino acid homology with its murine orthologue (Yoon et al. 2006;Moore et al. 1990).Mouse knockout studies showed that IL-10 down-regulates autoimmunity in the intestinal tract and is active in suppression of Crohn's disease (Minderhoud, Samsom, andOldenburg 2007, 2007).In confirmation, the inability to clear persistent viral infections was shown to result from T-cell inactivation generated by APC up-regulation of anti-inflammatory IL-10 biosynthesis (Seyfert-Margolis et al. 2006).Thus, suppression of inflammatory responses mediated by DC up-regulation of IL-10 may play a significant role in virus-mediated suppression of type 1 diabetes in NOD mice and BB rats (Tracy and Drescher 2007;Schwimmbeck, Dyrberg, and Oldstone 1988).Alternative mechanisms that may play a role in cytokine enhancement of immune suppression include IL-10 blockage of NF-kappa B activity and regulation of the JAK-STAT signaling pathway (Donnelly, Dickensheets, and Finbloom 1999;Leceta et al. 2000).A regulatory role for autocrine IL-10 has been described for APCs such as monocytes, macrophages and dendritic cells (de Waal Malefyt et al. 1991;Sica et al. 2000).Autocrine production of IL-10 by immature DCs, was shown to inhibit production and release of proinflammatory cytokines (IL-12, TNF-, IL-6, LTB4, NO, PGE2), and to suppress Th1 lymphocyte activity by down-regulation of costimulatory molecule expression on the APC surface (Harizi and Gualde 2006;Grutz 2005;Moore et al. 1993).Through inhibition of these endogenous pro-inflammatory mediators, IL-10 has demonstrated a central role in downregulating DC mediated inflammatory responses and maintenance of DCs in an immature state (Harizi and Gualde 2006).In paracrine fashion, IL-10 synthesized by DCs can regulate immune responses by altering the function of different adjacent cell types.In several studies IL-10 secreted by iDCs stimulated morphogenesis of cognate Th0 cell development into immunosuppressive Th2 lymphocytes, or into suppressor CD4+ regulatory T cells (Stassen, Schmitt, and Jonuleit 2004;Romagnani et al. 1998).In addition, IL-10 was shown to increase effector functions of CD8+ T cells (Groux et al. 1999).In addition, IL-10 may be crucial for controlling chronic inflammatory responses in vivo.Inhibition of LPS-induced CD40 signaling by IL-10 suppressed multiple sclerosis and rheumatoid arthritis, confirming the value of IL-10 as a therapeutic for autoimmunity (Qin et al. 2006).Further, IL-10 was shown to play a role in partial suppression of type 1 diabetes (Slavin, Maron, and Weiner 2001;Battaglia et al. 2006;Goudy et al. 2001;Goudy et al. 2003).Thus, through activation of several biological mechanisms, IL-10 may provide significant enhancement to CTB-diabetes autoantigen mediated immune suppression.

Virus vaccine delivery does not inhibit immunotolerance
In addition to its function as a vehicle for subunit vaccine delivery, vaccinia virus was shown to stimulate production of anti-inflammatory cytokines IL-10 and TGF-in skin epithelial cells (Liu et al. 2005).As these cytokines are known to inhibit inflammation and Th1 responses, vaccinia demonstrates properties known to suppress inflammation.Further, vaccinia virus expressing the pancreatic islet auto-Ag glutamic acid decarboxylase (GAD) was shown to be 90% effective in prevention of diabetes in NOD mice (Jun, Khil, and Yoon 2002;Jun et al. 2002).(1) Vaccinia multiplies in the cytoplasm, excluding genetic modification of infected cells (Moss 1996).(2) All human cell types tested produce viral infection with high efficiency.Viral or foreign proteins are synthesized and undergo appropriate post-translational modification (Moss 1991).(3) Multiple autoantigen genes (up to 25 kb), can be tolerated in dispensable regions of the vaccinia genome without impacting virus growth.( 4) Because recombinant vaccinia virus proteins expressed in mammalian cells are properly folded, processed and transported normally, they can be used to induce or bind antibodies that recognize conformational epitopes (Otteken, Earl, and Moss 1996).( 5) The safety of a live attenuated VV vaccine was clearly shown in a major smallpox eradication program (Moss 1991).( 6) Patients injected with an attenuated VV strain expressing cytokines showed no evidence of systemic virus spread, organ dysfunction or other major hematological or biochemical changes (Robinson, Cornelius et al. 1998;Robinson, Mukherjee et al. 1998;Mastrangelo et al. 1999).( 7) Construction of safer, hyper-attenuated replicationdeficient and -competent strains of vaccinia is underway (Denes et al. 2006), which could be used for treatment of diabetes.Recent experiments in our laboratory showed that vaccinia virus delivered CTB-INS autoantigens suppress type 1 diabetes insulitis and hyperglycemia in NOD mice (Denes, Fodor and Langridge 2010).Of specific relevance to this proposal, addition of vaccinia as an alternate CTB-INS delivery vehicle will permit priming and boosting CTB-INS immunosuppressive responses without the possibility for generation of immunity to the vector, which could potentially ameliorate immunological tolerization to the autoantigen and degrade the contribution of the adjuvant to enhanced immunosuppression.Further, delivery of subunit vaccines, which are often lacking in immunogenicity may benefit from increased immunostimulation provided by heterologous prime/boost inoculation regimes.Vaccinia prime, plant boost strategies may provide an increased level of immunosuppression.

Plants block type 1 diabetes onset and act as production and delivery vehicles for diabetes vaccines.
The B subunit of the AB toxin isolated from the castor oil plant Ricinus communis, when linked as a fusion protein at the C-terminus of proinsulin and expressed in potato plants, was shown to significantly suppress the onset of type 1 diabetes (Carter et al. 2010;Carter et. al. 2006).Because food plants are generally devoid of pathogen associated molecular patterns (PAMPs), they are well tolerated by the inate and adaptive arms of the immune system.Their ease of genome manipulation via genetic engineering techniques, their ability to correctly modify recombinant proteins while retaining biological activity and their simplicity for oral vaccine administration makes them ideal production and delivery vehicles for mucosal vaccination (Fuchs and Gonsalves 2007;Horn, Woodard, and Howard 2004;Streatfield 2006).Further, the federal government has confirmed the safety of transgenic plants for human consumption as no human toxicity has been detected since their first appearance two decades ago (Konig et al. 2004;Flachowsky, Chesson, and Aulrich 2005).Having completed phase 3 trials, several plant synthesized pharmaceuticals have already emerged into the marketplace (Horn, Woodard, and Howard 2004).In contrast to injected vaccines that stimulate only IgG antibody production, plant based vaccines stimulate both IgA and IgG antibody biosynthesis, protecting mucosal epithelia as well as blood perfused tissues.Further, plants do not become infected with animal pathogens, and since they are delivered by the digestive tract, they eliminate needle based injuries and cross infection.In terms of stimulating immunity, heterologous plant prime-boost vaccination regimes were shown to generate high levels of antibody protection in mice (Webster et al. 2006).Important to this review, plant vaccines have also been shown to suppress autoimmune diseases (Arakawa, Chong, and Langridge 1998;von Herrath and Whitton 2000).The addition of immunomodulators to autoantigens in prime-boost regimens was shown to significantly enhance immunological suppression of autoimmunity and allergy (Ulmer, Wahren, andLiu 2006, 2006).Alternatively, virus delivered CTB::INS and CTB::GAD fusion genes expressed in primate and human cells were shown to partially suppress insulitis and hyperglycemia in NOD mice providing the option for development of virus prime-plant boost strategies for enhanced suppression of autoimmunity (Denes et al. 2005;Denes et al. 2006).Thus, in addition to providing nutrition, transgenic plant tissues can provide proteins that both suppress diabetes autoimmunity and serve as production and delivery vehicles for multi-component vaccines that can suppress autoimmunity.

Conclusions
A variety of bacterial and plant enterotoxin B subunit immunomodulatory molecules linked to diabetes autoantigens were shown to safely generate substantial increases in immunological tolerance in vaccinated prediabetic mice.Additional evidence from NOD mouse vaccination experiments showed that this multifactorial vaccination strategy in combination with the anti-inflammatory cytokine IL-10 is both effective and safe for durable suppression of chronic insulitis responsible for type 1 diabetes onset.Recent ex vivo monocyte derived DC -CTB::autoantigen fusion protein inoculation experiments showed that enhancement of immunological tolerance correlated with vaccine suppression of DC biosynthesis of co-stimulatory factors CD86, CD83 and CD80.In addition, vaccine inoculated DCs were shown to further suppress diabetes autoimmunity by down-regulating inflammatory cytokine IL-12 and IL-6 secretion and up-regulating secretion of the antiinflammatory cytokine IL-10.In future experiments, incubation of adjuvant-autoantigen inoculated DCs with naïve Th0 lymphocytes will determine the degree to which CTBautoantigen fusion proteins can stimulate naïve Th0 lymphocyte development into antiinflammatory Th2 or regulatory T cells.Further, these experiments may also establish whether CTB adjuvant-autoantigen fusion proteins suppress diabetes autoimmunity by enhancing DC inhibition of autoreactive Th1 or Th17 lymphocyte development.

Fig. 2 .
Fig. 2. Measurement of anti-inflammatory cytokine IL-10 and inflammatory cytokine IL-12/23p40 subunit levels by Cytometric Bead Array flow cytometry, from cell supernatants removed from iDCs inoculated with CTB-insulin (CTB::INS) fusion protein, (Panel A) or CTB::GAD fusion protein (Panel B).For each treatment the concentration of IL-10 and IL-12/23p40 subunit was normalized to standard IL-10 and IL-12/23p40 cytokine curve and given in pg/ml.The data represent the Mean and SE (*P<0.001) of repeated independent experiments in comparison with the control sample.