Inhibitory effect of 1,25-dihydroxyvitamin D3 on Porphyromonas gingivalis-induced inflammation and bone resorption in vivo.

OBJECTIVE: To investigate whether intragastric administration of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) could inhibit the bone resorption and inflammation in a mouse calvarial model infected by Porphyromonas gingivalis (P. gingivalis). DESIGN: Live P. gingivalis ATCC 33277 was injected once daily for 6days into the subcutaneous tissue overlying the calvaria in mice. At the same time, 1,25(OH)2D3 (50µg/kg per day) was administered by gavage for 9days, starting 3d before the infection. Mice were killed under ether anesthesia 8h after the last injection of P. gingivalis. Micro-computed tomography scanning was used to evaluate calvarial bone loss. Tartrate-resistant acid phosphatase was used to detect osteoclast activity. Real-time PCR was used to assess the mRNA expressions of OPG, RANKL, c-Fos, NFATc1, CTSK and TRAP in calvarial bone and IL-6, IL-10, IL-1ß, IL-12p40 and TNF-α in soft tissue. The levels of serum IL-6, IL-10 were determined by ELISA. RESULTS: 1,25(OH)2D3 treatment apparently attenuated bone resorption in P. gingivalis-induced mouse calvarial model and markedly reduced the number of osteoclasts. The expression levels of RANKL and osteoclast-related genes such as c-Fos, NFATc1, CTSK and TRAP were also decreased by 1,25(OH)2D3. Besides, 1,25(OH)2D3 inhibited the expression of pro-inflammatory cytokines IL-6, IL-12p40 and TNF-α and enormously elevated the expression of anti-inflammatory cytokine IL-10. CONCLUSION: 1,25(OH)2D3 may decrease bone resorption in vivo via suppressing the expression of osteoclast-related genes and its anti-inflammatory properties.

CCL17 combined with CCL19 as a nasal adjuvant enhances the immunogenicity of an anti-caries DNA vaccine in rodents.

AIM: CCL19 and its receptor CCR7 are essential molecules for facilitating the trafficking of mature dendritic cells (DCs) and helping to establish a microenvironment in lymphoid tissues to initiate primary immune responses, whereas CCL17 is required in the CCR7-CCL19-dependent migration of DCs. In this study we examined whether co-administration of CCL17 and CCL19 could enhance the immunogenicity of an anti-caries DNA vaccine, pCIA-P, in rodents. METHODS: Plasmids encoding CCL17 (pCCL17/VAX) and CCL19 (pCCL19/VAX) were constructed. BALB/c mice were intranasally administered pCCL17/VAX, pCCL19/VAX, or pCCL17/VAX plus pCCL19/VAX, the migration of DCs to the spleen and draining lymph nodes (DLNs) was assessed with flow cytometry. The mice were co-administered pCIA-P; and the anti-PAc antibodies in the serum and saliva were detected with ELISA. Wistar rats were orally challenged with Streptococcus mutans and then administered pCIA-P in combination with pCCL17/VAX, pCCL19/VAX, or pCCL17/VAX plus pCCL19/VAX. The amount of S mutans sustained on rat molar surfaces was assessed using a colony forming assay. Caries activity was scored with the Keyes method. RESULTS: Co-administration of the CCL17 and CCL19 genes in mice caused a greater increase in the number of mature DCs in the spleen and DLNs compared with administration of CCL17 or CCL19 genes alone. CCL17 and CCL19 double-adjuvant plus pCIA-P induced significantly higher levels of anti-PAc salivary IgA and anti-PAc serum IgG antibody in mice, and strengthened the ability of pCIA-P in inhibiting the colonization of S mutans on rat tooth surfaces. The caries activity of the combined adjuvant group was significantly lower than that of the pCCL17/VAX or the pCCL19/VAX group. CONCLUSION: A nasal adjuvant consisting of a combination of CCL17 and CCL19 attracts more mature DCs to secondary lymphoid tissues, inducing enhanced antibody responses against the anti-caries DNA vaccine pCIA-P and reducing S mutans infection in rodents.

Effects of 1,25-dihydroxyvitamin D3 on Macrophage Cytokine Secretion Stimulated by Porphyromonas gingivalis.

Vitamin D is known to be closely associated with periodontitis; however, its exact mechanisms remain to be clarified. The present study aimed to investigate the influence of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) on Porphyromonas gingivalis (Pg)-stimulated cytokine production and the involved signaling pathways in macrophages. The main observation was that 1,25(OH)2D3 inhibited Pg-induced interleukin (IL)-6 cytokine expression but up-regulated the expression of anti-inflammatory cytokine IL-10. Further analyses showed that 1,25(OH)2D3 decreased p38 mitogen-activated protein kinase (MAPK) and extracellular signal regulated kinase (ERK)1/2 phosphorylation. Inhibited phosphorylation of p38 MAPK and ERK1/2 was associated with decreased level of IL-6 expression, but was not related to increased level of IL-10 expression in macrophages stimulated with Pg. These results suggest that 1,25(OH)2D3 might exert its anti-inflammatory effects on Pg-stimulated macrophages partly through its inhibitory effect on the p38 MAPK and ERK1/2 signaling pathway.

Intranasal co-delivery of IL-6 gene enhances the immunogenicity of anti-caries DNA vaccine.

AIM: To investigate the effects of co-delivering IL-6 expressing plasmid pCI-IL-6 on the immunogenicity of the anti-caries DNA vaccine pCIA-P, which encodes the surface protein antigen PAc of Streptococcus mutans. METHODS: Plasmid pCI-IL-6 was constructed by inserting the murine IL-6 gene into the pCI vector. Expression of IL-6 in vitro was assessed using Western blot analysis. BALB/c mice were intranasally co-immunized with pCIA-P plus pCI-IL-6 on d 0 and 14. Anti-PAc IgG and secretory IgA (sIgA) were assessed by ELISA. Splenocytes from the mice were re-stimulated with the PAc protein, and IFN-γ and IL-4 production was measured using ELISA. Splenocyte proliferation was analyzed with flow cytometry. Rats were similarly immunized, and dental caries scores were determined using the Keyes method. RESULTS: Marked expression of IL-6 was found in COS-7 cells transfected with pCI-IL-6. In the pCI-IL-6 co-immunized mice, the specific IgG antibodies in serum and sIgA antibodies in saliva were significantly higher than those in the control mice at weeks 4 and 8. Moreover, the secretion of IFN-γ from splenocytes in response to re-stimulation with PAc protein was significantly higher in the pCI-IL-6 co-immunized mice than that in the control mice, whereas the secretion of IL-4 had no significant difference. The proliferation of splenocytes from the pCI-IL-6 co-immunized mice was significantly higher than that from the mice immunized with pCIA-P and pCI vector. In the rat caries model, the pCI-IL-6 co-immunization rats displayed lower caries scores than the control rats. CONCLUSION: Intranasal co-delivery of IL-6 gene significantly enhances the immunogenicity of the anti-caries DNA vaccine.

Anti-caries DNA vaccine-induced secretory immunoglobulin A antibodies inhibit formation of Streptococcus mutans biofilms in vitro.

AIM: To investigate the effects of anti-caries DNA vaccine-induced salivary secretory immunoglobulin A (S-IgA) antibodies on Streptococcus mutans (S. mutans) adherence and biofilms formation in vitro. METHODS: Adult female Wistar rats were intranasally immunized with the anti-caries DNA vaccine pGJA-P/VAX. Their saliva samples were collected at different times after the immunization, and S-IgA antibody level in the saliva and its inhibition on S. mutans adherence were examined. The effects of S-IgA in the saliva with the strongest inhibitory effects were examined at 3 different stages, ie acquired pellicles, biofilm formation and production of mature biofilms. The number of viable bacteria and depth of the biofilm at 16 h in each stage were determined using counting colony forming units and using a confocal laser scanning microscopy (CLSM). The participation of S-IgA in acquired pellicles and its aggregation with S. mutans were also observed under CLSM. RESULTS: The S-IgA titer in saliva reached its peak and exhibited the strongest inhibition on S. mutans adhesion at 10 weeks after the immunization. The colonies and depth of the biofilm in the saliva-pretreated group were 41.79% and 41.02%, respectively, less than the control group. The colonies and depth of the biofilm in the co-culture group were 27.4% and 22.81% less than the control group. The assembly of S. mutans and S-IgA was observed under CLSM after co-cultivation. In the mature-stage biofilm, no differences were observed between the different groups. CONCLUSION: These results demonstrate that the anti-caries DNA vaccine induces the production of specific S-IgA antibodies that may prevent dental caries by inhibiting the initial adherence of S. mutans onto tooth surfaces, thereby reducing the accumulation of S. mutans on the acquired pellicles.

Co-delivery of ccl19 gene enhances anti-caries DNA vaccine pCIA-P immunogenicity in mice by increasing dendritic cell migration to secondary lymphoid tissues.

AIM: To investigate how co-delivery of the gene encoding C-C chemokine ligand-19 (CCL-19) affected the systemic immune responses to an anti-caries DNA vaccine pCIA-P in mice. METHODS: Plasmid encoding CCL19-GFP fusion protein (pCCL19/GFP) was constructed by inserting murine ccl19 gene into GFP-expressing vector pAcGFP1-N1. Chemotactic effect of the fusion protein on murine dendritic cells (DCs) was assessed in vitro and in vivo using transwell and flow cytometric analysis, respectively. BALB/c mice were administered anti-caries DNA vaccine pCIA-P plus pCCL19/GFP (each 100 µg, im) or pCIA-P alone. Serum level of anti-PAc IgG was assessed with ELISA. Splenocytes from the mice were stimulated with PAc protein for 48 h, and IFN-γ and IL-4 production was measured with ELISA. The presence of pCCL19/GFP in spleen and draining lymph nodes was assessed using PCR. The expression of pCCL19/GFP protein in these tissues was analyzed under microscope and with flow cytometry. RESULTS: The expression level of CCL19-GFP fusion protein was considerably increased 48 h after transfection of COS-7 cells with pCCL19/GFP plasmids. The fusion protein showed potent chemotactic activity on DCs in vitro. The level of serum PAc-specific IgG was significantly increased from 4 to 14 weeks in the mice vaccinated with pCIA-P plus pCCL19/GFP. Compared to mice vaccinated with pCIA-P alone, the splenocytes from mice vaccinated with pCIA-P plus pCCL19/GFP produced significantly higher level of IFN-γ, but IL-4 production had no significant change. Following intromuscular co-delivery, pCCL19/GFP plasmid and fusion protein were detected in the spleen and draining lymph nodes. Administration of CCL19 gene in mice markedly increased the number of mature DCs in secondary lymphoid tissues. CONCLUSION: CCL19 serves as an effective adjuvant for anti-caries DNA vaccine by inducing chemotactic migration of DCs to secondary lymphoid tissues.

A new gcrR-deficient Streptococcus mutans mutant for replacement therapy of dental caries.

BACKGROUND: gcrR gene acts as a negative regulator related to sucrose-dependent adherence in S. mutans. It is constructive to test the potential capacity of mutans with gcrR gene deficient in bacteria replacement therapy. METHODS: In this study, we constructed the mutant by homologous recombination. The morphological characteristics of biofilms were analyzed by confocal laser scanning microscopy. S. mutans UA159 and the mutant MS-gcrR-def were inoculated, respectively, or together for competitive testing in vitro and in rat model. RESULTS: Adhesion assay showed that the adhesion ability of the mutant increased relative to the wild type, especially in the early stage. MS-gcrR-def out-competed S. mutans UA159 in vitro biofilm, and correspondingly coinfection displayed significantly fewer caries in vivo. The former possessed both a lower level of acid production and a stronger colonization potential than S. mutans UA159. CONCLUSION: These findings demonstrate that MS-gcrR-def appears to be a good candidate for replacement therapy.

[Application of case-based learning in clinical internship teaching of conservative dentistry and endodontics].

PURPOSE: To investigate the education effect of case-based learning (CBL) pattern on clinical internship of conservative dentistry and endodontics. METHODS: Forty-one undergraduates were randomly assigned into CBL group and traditional teaching group. After clinical internship in the department of conservative dentistry and endodontics for 11 weeks, each student in the 2 groups underwent comprehensive examinations including medical record writing, case analysis, academic knowledge, professional skills and the ability of winning the trust of the patients. The scores were compared between the 2 groups using SPSS 13.0 software package. RESULTS: There was no significant difference between the 2 groups with regard to the scores of academic knowledge and profession skills (P>0.05). However, the results of medical record writing, case analysis and the ability of winning the trust of the patients showed significant difference between the 2 groups(P<0.05). CONCLUSIONS: Proper application of CBL in clinical internship of conservative dentistry and endodontics contributes to improve students' ability of clinical thinking, synthetical analysis and adaptability to different patients.

A targeted fimA DNA vaccine prevents alveolar bone loss in mice after intra-nasal administration.

AIM: To construct a dendritic cell (DC)-targeted DNA vaccine against FimA of Porphyromonas gingivalis and evaluate the immunogenicity and protection in mice. MATERIALS AND METHODS: A targeted DNA plasmid pCTLA4-FimA, which encodes the signal peptide and extracellular regions of mouse cytotoxic T lymphocyte-associated antigen 4 (CTLA4), the hinge and Fc regions of human Igγ1 and FimA of P. gingivalis, was constructed. Mice were immunized with pCTLA4-FimA, the non-targeted DNA plasmid pFimA, which contains only fimA gene, or pCI vector intra-nasally. Serum and saliva antibody responses were detected by enzyme-linked immunosorbent assay. The protection against P. gingivalis-induced periodontitis was evaluated by measuring alveolar bone loss in mice. RESULTS: Mice immunized with pCTLA4-FimA showed elevated levels of specific serum IgG and salivary IgA antibody responses compared with mice immunized with pFimA (p<0.01). Both pFimA and pCTLA4-FimA immunized groups showed significantly lower alveolar bone loss, with the magnitude protection greater in the latter (p<0.01), compared with the pCI immunized group. CONCLUSIONS: The DC-targeted DNA construct pCTLA4-FimA enhanced both systemic and mucosal immunity following intra-nasal immunization. A DNA-based immunization strategy may be an effective way to attenuate periodontitis induced by P. gingivalis.

A new strategy for the replacement therapy of dental caries.

The rationale of bacterial replacement therapy against dental caries is that relatively avirulent strains of Mutans Streptococi (MS) are most likely to occupy the same ecological niche in plaque as their more cariogenic counterparts. As known, lactate dehydrogenase (LDH) deficiency has been proposed as one aspect of a strategy to construct an effector strain because LDH-deficient mutants could affect acid production by MS so as to reduce their cariogenicity. Glucan-binding lectin (GBL) plays a very important role in the formation of dental plaque biomembrane and the adherence of S. mutans to teeth surface. The gcrR gene acts as a negative transcriptional regular of gbpc gene which encoded S. mutans GBL. We presume an LDH-deficient S. mutans mutants which harbours an insertion-deletion mutation in gcrR gene can result in overexpression of GBL and higher adherence to teeth than the wild-type S. mutans and will possess of both low-level acid production and strong colonization potential.

Protective efficacy of two new anti-caries DNA vaccines.

As we know, the catalytic region of glucosyltransferases (GTFs) is a key region responsible for sucrose-dependent adherence of cariogenic bacteria to teeth. In this study, we evaluate the potential of the catalytic region to enhance the immunogenicity of the anti-caries DNA vaccine. We construct two new anti-caries DNA plasmids pGJGAC/VAX and pGJGA-5C/VAX by cloning different styles of the catalytic regions of GTFs into the previous plasmid pGJA-P/VAX. One is the 1.1 kb full length catalytic region of S. sobrinus GTF-I, the other is its catalytic core sequence which is conserved in the GTFs from mutans streptococci and plays a central role in the enzymatic activities of sucrose splitting and glucan synthesis. The results of caries protection experiment indicate that compared to pGJA-P/VAX, immunization with both new plasmids provides more effective protection against cariogenic bacteria, especially against S. sobrinus. The plasmid encoding full length catalytic region could provide more effective protection against cariogenic bacteria than that encoding catalytic core conserved sequence even though the differences are not very dramatic.

Analysis of the molecular mechanisms of targeted anti-caries DNA plasmid enhancing antibody responses by gene arrays.

BACKGROUND: The cytotoxic T lymphocyte antigen 4 (CTLA4) represents an attractive ligand for use in the targeting of antigens to dendritic cells (DCs). Studies have shown that CTLA4 targeted DNA vaccines induced accelerated and increased antibody responses compared to nontargeted vaccines. However, little is known about the molecular events on DCs after transfection with targeted DNA vaccines. METHODS: Here we constructed a green fluorescent protein (GFP)-labeled targeted anti-caries plasmid pMGJGLU/GFP and a GFP-labeled nontargeted anti-caries plasmid pCDGLU/GFP, compared the antibody responses they induced in mice, and investigated the gene expression profiles of DCs transfected with pMGJGLU/GFP and pCDGLU/GFP by gene array analysis. RESULTS: The data obtained showed that pMGJGLU/GFP induced accelerated and increased serum antibody responses in mice compared to pCDGLU/GFP. Overall, the expression levels of 28 genes were up-regulated in pMGJGLU/GFP transfected DCs compared to pCDGLU/GFP transfected DCs by gene array analysis. Real-time reverse transcriptase-polymerase chain reaction analysis on pMGJGLU/GFP transfected DCs and pCDGLU/GFP transfected DCs confirmed the up-regulation of the mRNA expression levels of seven selected genes. Notably, we identified the specific up-regulation of mRNA expression levels of cytokines Ccl17, Ccl19, and antigen presentation receptor Cd209a of pMGJGLU/GFP transfected DCs, suggesting a more rapid migration of DCs to lymph nodes and a T helper 2 biased immune response. CONCLUSIONS: In the present study, we confirmed our previous reports that CTLA4 targeted DNA vaccines could induce increased antibody responses compared to nontargeted vaccines. Ccl17, Ccl19 and Cd209a may play an important role in the enhanced immune responses.

[Protective efficacy of a new fusion anti-caries DNA vaccine encoding antigens of both Streptococcus mutans and Streptococcus sobrinus].

OBJECTIVE: To construct a new fusion anti-caries DNA vaccine pGJGAC/VAX encoding antigens of both S. mutans and S. sobrinus so as to enhance the protective effect of DNA vaccine against S. sobrinus infection. METHODS: The CAT fragment of S. sobrinus OMZ176 gtf-I was amplified by semi-nest PCR and then inserted into the plasmid pGJA-P/VAX to construct the recombinant plasmid pGJGAC/VAX. The CHO cell was transfected and the expression of fusion protein detected using cellular immunohistochemistry and Western blot. Mice were immunized with pGJGAC/VAX and control plasmids via the intramuscular (i.m) or intranasal (i.n) routes. During the experiment, blood and saliva samples were collected at a 2-week interval for antibody assay by ELISA. Rats were orally challenged with S. mutans Ingbritt or S. sobrinus 6715 and then immunized i.n with pGJGAC/VAX, pGJA-P/VAX or pVAX1. The Keyes method was used to determine the caries activity. RESULTS: (1) CAT sequence was identical to the related sequence of gtf-I (OMZ176) in GenBank. The recombinant plasmid pGJGAC/VAX encoded the genes of antigens of both S. mutans and S. sobrinus. The expressed protein could respond to specific anti-PAc, anti-GLU and anti-CAT antibodies respectively. (2) As for antibody reactions, mice in the experiment group had significantly higher levels of anti-PAc, anti-GLU and anti-CAT IgG antibodies than those in the pVAX1 group (P < 0.01). The peak responses of specific anti-CAT antibodies were observed at 8 weeks (GAC/i.m) and 10 weeks (GAC/i.n) and were approximately 62.13 microg/ml and 11.43 microg/ml respectively. The peak responses of specific anti-CAT IgA antibodies were seen at 8 weeks (GAC/i.m) and 10 weeks (GAC/i.n) and were approximately 0.67% and 0.80% respectively. (3) In the group infected with S. mutans or S. sobrinus, the pGJGAC/VAX-immunized rats showed significantly fewer E, Ds and Dm lesions than pVAX1-immunized rats (P < 0.05) and decreased Ds and Dm levels than pGJA-P/VAX-immunized rats (P < 0.05) while there was no obvious difference in E lesions between the two groups (P > 0.05). CONCLUSION: A new fusion anti-caries DNA vaccine pGJGAC/VAX encoding antigens of both S. mutans and S. sobrinus is constructed successfully and expressed correctly in eukaryotic cells. It induces effective mucosal and systematic humoral responses so as to provide a better protection against S. sobrinus.

CTLA4 targeting strategy in DNA vaccination against periodontitis.

Periodontitis are among the most frequent infectious diseases affecting children and adolescents. The primary etiology of periodontal diseases is the bacterial plaque. Studies have demonstrated the feasibility of inducing immune responses by DNA vaccines against Porphyromonas gingivalis, the major aetiological agent of chronic periodontitis, and the subsequent development of periodontitis in animal models. But until now, the poor immunogenicity, particularly in large animals, is still a major problem in DNA vaccination. Cytotoxic T lymphocyte-associated antigen 4 (CTLA4) is a membrane bound molecule mainly located on activated T cells. Its extracellular V-domain is considered to be involved in mediating the binding to the B7 molecule on antigen-presenting cells (APCs). By utilizing the interaction between CTLA4 and B7, specific antigens can be targeted to APCs by fusion to CTLA4 and DNA vaccines encoding CTLA4 and specific antigens greatly increased the systemic antibody responses following immunization in mice. We hypothesize that targeting antigens to APCs offers a potential strategy to enhance the immune responses generated by DNA vaccines against periodontitis.

Enhanced efficacy of CTLA-4 fusion anti-caries DNA vaccines in gnotobiotic hamsters.

AIM: To evaluate the comparative immunogenicity and protective efficacy of the cytotoxic T-lymphocyte-associated antigen 4 (CTLA-4) fusion anti-caries DNA vaccines pGJA-P/VAX1, pGJA-P, and non-fusion anti-caries DNA construct pGLUA-P in hamsters. In addition, the ability of CTLA-4 to target pGJA-P/VAX1-encoding antigen to dendritic cells was tested in vitro. METHODS: All DNA constructs contain genes encoding the A-P regions of a cell surface protein (PAc) and the glucan binding (GLU) domain of glucosyltransferases (GTFs) of cariogenic organism Streptococcus mutans. Human dendritic cells were mixed with the CTLA-4-Ig-GLU-A-P protein expressed by pGJA-P/VAX1-transfected cells and analyzed by flow cytometry. Gnotobiotic hamsters were immunized with anti-caries DNA vaccines by intramuscular injection or intranasal administration. Antibody responses to a representative antigen PAc were assayed by ELISA, and caries protection was evaluated by Keyes caries scores. RESULTS: A flow cytometric analysis demonstrated that CTLA-4-Ig-GLU-A-P protein was capable of binding to human dendritic cells. pGJA-P/VAX1 and pGJA-P induced significantly higher specific salivary and serum anti-PAc antibody responses than pGLUA-P. Significantly fewer caries lesions were also observed in hamsters immunized with pGJA-P/VAX1 and pGJA-P. There was no significant difference in the anti-PAc antibody level or caries scores between pGJA-P/VAX1 and pGJA-P-immunized groups. CONCLUSION: Antigen encoded by CTLA-4 fusion anti-caries DNA vaccine pGJA-P/VAX1 could specifically bind to human dendritic cells through the interaction of CTLA-4 and B7 molecules. Fusing antigen to CTLA-4 has been proven to greatly enhance the immunogenicity and protective efficacy of anti-caries DNA vaccines.

Immunogenicity of CTLA4 fusion anti-caries DNA vaccine in rabbits and monkeys.

Enhancement of mucosal and systemic immune responses is still a challenge for the application of DNA vaccine. Here, we show anti-caries DNA vaccines, pGJA-P and pGJA-P/VAX, encoding Streptococcus mutans antigens fused to cytotoxic T lymphocyte antigen-4 (CTLA4), which binds to B7 molecule expressed on the surfaces of antigen-presenting cells. Rabbits and monkeys were immunized via intranasal or intramuscular routes. The fusion vaccine induced accelerated and increased specific antibody responses in serum and saliva compared with non-fusion DNA vaccine in rabbits. Significant specific serum IgG and salivary IgA levels could be detected in fusion vaccine-immunized monkeys. Therefore, this study demonstrates that fusing antigens to CTLA4 results in enhancing immune efficacy and strongly suggests that it may represent a promising approach to prevent dental caries or other mucosal infectious diseases. These findings also suggest that CTLA4 fusion anti-caries DNA vaccine may be effective immunogen in primates.

Immunogenicity and protective efficacy of a targeted fusion DNA construct against dental caries.

Targeting antigens to antigen-presenting cells by fusion to cytotoxic T lymphocyte-associated antigen 4 (CTLA4) has been shown to be a highly efficient method to enhance the efficacy of DNA vaccines. The purpose of this study was to determine the immunogenicity and protective efficacy of the targeted fusion DNA construct pGJA-P, which contains the signal peptide and extracellular regions of human CTLA4 gene, the hinge and Fc regions of human Iggamma1 gene, the glucan-binding domain of the Streptococcus mutans gtfB gene and the A-P fragment of the S. mutans pac gene, compared with the fusion DNA construct pGLUA-P, which contains only the glucan-binding domain of the S. mutansgtfB gene and the A-P fragment of the S. mutans pac gene. BALB/c mice were immunized with pGJA-P, pGLUA-P, or pCI (vector) by the intramuscular or intranasal route. Specific anti-PAc and anti-GTF-I serum IgG and salivary IgA antibody responses were assessed by an enzyme-linked immunosorbent assay. Wistar rats were orally challenged with S. mutans and immunized with pGJA-P, pGLUA-P, or pCI intramuscularly or intranasally, and caries activity was evaluated by the Keyes method. pGJA-P induced accelerated and increased serum and salivary antibody responses in mice compared with pGLUA-P. Rats immunized with pGJA-P had significantly fewer caries lesions than rats immunized with pGLUA-P (p < 0.01). Thus, this study demonstrates that the targeted DNA construct pGJA-P can enhance both systemic and mucosal immunity and may be a useful strategy for improving the protective efficacy of anticaries DNA vaccines.

[Immunization with targeted fusion anticaries DNA vaccine via intramuscular route:experiment with murine].

OBJECTIVES: To observe the expression of a targeted fusion anticaries DNA vaccine pGJA-P in muscular in vivo. To compare the levels of specific antibodies and anticaries efficacy generated by pGJA-P and fusion anticaries DNA vaccine pGLUA-P in gnotobiotic rats, and observe the kinetics of antibody responses in BALB/c mice. METHODS: (1) Twelve 28-day-old female Wistar rats were randomly divided into 2 groups of 6 rats to be injected with the plasmid pGJA-P containing the signal peptide and extracellular regions of human CTLA(4), hinge and Fc regions of human IgG, the glu sequence of gtfB gene and A-P fragment of pac gene of Streptococcus mutans or the eukaryotic expression plasmid pCI into the quadriceps muscle of thigh respectively. Three days after the rats were killed and specimens of quadriceps muscles of thigh were taken. Immunohistochemical SP staining was used to examine the in situ expression of pGJA-P. (2) Twenty-four 18-day-old female Wistar rats were randomly divided into 4 groups of 6 rats. The rats were fed with cariogenic food. During the age of 20 - 22 days cariogentic food containing broad-spectrum antibiotics was fed. Then aseptic cotton stick was used to swab the oral cavity and be smeared onto the solid medium so as to observe the growth of bacteria under anaerobic culture for 48 hours. During the age of 24 - 26 days, S. mutans Ingbritt cultured anaerobically was swab onto the surface of teeth of the rats twice with an interval of 30 minutes. After the inoculation aseptic cotton stick was used to wipe the oral cavity and be smeared onto the solid medium so as to observe the growth of bacteria under anaerobic culture for 48 hours. When the gnotobiotic rats were 28 days old they were injected with pGJA-P, pGLUA-P, fusion anticaries DNA vaccine against both PAc, cell surface protein antigen, and glucosyltransferase (GTF), pCI or normal saline into the quadriceps muscle of thigh respectively, 2 weeks later a booster shot was given. When the rats were 63 days old their saliva and blood samples were collected. The serum IgG and salivary IgA were assayed by using ELISA. The gnotobiotic rats were killed and their maxillary bone the mandibles were isolated. The anticaries effect was evaluated by Keyes caries scores. (3) Twenty-four 4-week-old BALB/c mice were randomly divided into 4 groups of 6 mice: to be injected with pGJA-P, pGLUA-P, pCI, or normal saline respectively into the quadriceps muscles of thigh, 2 weeks later a booster shot was given. Before the injection and every 2 weeks after the immunization specimens of saliva and blood were collected. The serum IgG and salivary IgA were assayed by using ELISA. RESULTS: (1) Recombinant protein could be detected in the quadriceps muscles of the rats immunized with pGJA-P, but not in the muscles of the rats immunized with pCI. (2) The levels of serum anti-PAc IgG (1:200 000) and anti-GTF IgG (1:58 000) of the rats immunized with pGJA-P were significantly higher than those of the rats immunized with pGLUA-P (1:23 000 and 1:11 000 respectively) (both P < 0.01). The levels of salivary anti-PAc IgA (1:8) and anti-GTF IgA (1:6) of the rats immunized with pGJA-P were significantly higher than those of the rats immunized with pGLUA-P (1:2 and 1:2 respectively) (both P < 0.01). The Keyes scores of the pGJA-P group were significantly lower than those of the pGLUA-P group and the control groups (all P < 0.01). The effective serum IgG and salivary IgA in the pGJA-P group and effective serum IgG in the pGLUA-P group all persisted to the end of the experiment. (3) Two weeks after the initial immunization the serum anti-PAc IgG level of the mice immunized with pGJA-P increased remarkably, 4 times that of the mice immunized with pGLUA-P, and 33 times those of the mice injected with pCI or normal saline. Two weeks after the booster immunization, the serum anti-PAc IgG level of the mice immunized with pGJA-P was 14 times that of the mice immunized with pGLUA-P, and 117 times those of the mice injected with pCI or normal saline. The serum anti-PAc IgG immunized with pGJA-P reached its peak 10 weeks after the initial immunization, 4 times that of the mice immunized with pGLUA-P, and 160 times those of the mice injected with pCI or normal saline. The serum anti-PAc IgG of the mice immunized with pGLUA-P reached its peak at 16 weeks, however, significantly lower than the peak of the mice immunized with pGJA-P (P < 0.01). The serum anti-Pac IgG levels of the mice injected with pCI or with normal saline were not significantly different (P > 0.05). Since the second week after the initial immunization, significant difference in the serum anti-PAc IgG level could be seen between the mice immunized with pGJA-P or the mice immunized with pGLUA-P, and between the mice immunized with pGJA-P and the mice immunized with pGLUA-P and those injected with pCI or normal saline (all P < 0.01). Six weeks after the initial immunization the salivary anti-PAc IgA level of the mice immunized with pGJA-P was 18 times those of the mice injected with pCI or with normal saline (both P < 0.01), 10 weeks after the salivary anti-PAc IgA level of the mice immunized with pGJA-P reached its peak, 24 times those of the mice immunized with pCI or normal saline without a significant difference between the latter 2 groups (P > 0.05). No effective salivary IgA response was seen in the mice immunized with pGLUA-P. CONCLUSION: pGJA-P can be expressed in vivo. Immunization with pGJA-P intramuscularly induces effective mucosal and systematic humoral responses. It is an effective DNA vaccine against dental caries.

[Immunization of rats with a targeted fusion anticaries DNA vaccine].

OBJECTIVE: To observe the expression of a targeted fusion anticaries DNA vaccine pGJA-P in situ. To compare the levels of specific antibodies and anticaries efficacy generated by pGJA-P and pGLUA-P, a fusion anticaries DNA vaccine. METHODS: pGJA-P was administrated intramuscularly or intranasally to rats, and the expression of recombinant protein was detected by immunohistochemistry technique. Wistar rats were fed a cariogenic diet and orally infected with S. mutans, then immunized with pGJA-P or pGLUA-P via the intramuscular or intranasal route. All rats received a booster immunization 2 weeks later. At the termination of the experiment, blood and saliva samples were collected for assay of antibodies by ELISA and jaws were obtained for caries evaluation by the Keyes method. RESULTS: Recombinant protein could be detected in muscle in intramuscularly immunized rats and in nasal mucosa in intranasally immunized rats. Rats immunized intramuscularly with pGJA-P had significantly higher serum IgG levels than others (P < 0.01). Rats immunized intranasally or intramuscularly with pGJA-P had significantly higher salivary IgA levels than others (P < 0.01). Keyes scores of pGJA-P groups were significantly lower than those of pGLUA-P groups and pCI groups (P < 0.01). CONCLUSIONS: pGJA-P could be correctly expressed in vivo. pGJA-P generated increased humoral immune response and anticaries efficacy compared with pGLUA-P.