Priming of allergic immune responses by repeated ozone exposure in mice

The effects of repeated ozone exposures on the development of immune responses toward ovalbumin (OVA) were investigated in BALB/c and C57BL/6 mice. Ozone exposures (180 to 500 microg/m(3); 4 h, three times/wk for 4 wk) were combined with a protocol of OVA-aerosol exposure (1% OVA). Immediate cutaneous hypersensitivity (ICHS) reactions and antibody titers were assessed in parallel to cytokine levels of bronchoalveolar lavage fluids. In BALB/c mice, ozone triggered a T-helper (Th)2-like response indicated by dose-dependent increases in total serum immunoglobulin (Ig) E (from 133 to 821 ng/ml), interleukin (IL)-4 (from 60 to 208 pg/ml), and IL-5 levels (from 43 to 356 pg/ml), and by the recruitment of eosinophils and lymphocytes into the airways. Ozone exposure (500 microg/m(3)) in parallel to OVA-aerosol exposure increased anti-OVA IgG(1) antibody titers by 80%, leukotrienes (C(4)/D(4)/E(4)) by 60%, and airway responsiveness (11.3 versus 7.2 mg/ml methacholine), and doubled the frequency of positive ICHS reactions. In C57BL/6 mice, only the combination of OVA and ozone exposure induced positive ICHS reactions, doubled anti-OVA IgG(1), and suppressed anti-OVA IgG(2a) (-64%) antibody titers. Ozone, therefore, shifted the immune responses to OVA toward a Th2-like pattern in both "IgE-high responder" (BALB/c) and "IgE-low responder" (C57BL/6) mice.

Deficient cytokine response of human allergen-specific T lymphocytes from humanized SCID mice and reconstitution by professional antigen-presenting cells

BACKGROUND

Hu-PBL-SCID mice generated by the transfer of PBMCs from atopic individuals may provide a physiologic in vivo model for investigating human responses to allergens and potential approaches toward immunotherapy.

OBJECTIVE

This study was undertaken to investigate the functional activity and cytokine profile of human allergen-reactive T lymphocytes isolated from hu-PBL-SCID mice.

METHODS

PBMCs from allergic individuals were coinjected with allergen into SCID mice. Human lymphocyte migration and phenotype were established by reverse transcription-PCR and immunohistochemistry, IgE levels in sera were determined, and the frequency of allergen-reactive cytokine-producing T lymphocytes was established.

RESULTS

After immunization with allergen, specific IgE levels in hu-PBL-SCID sera were comparable with levels in donor sera. Although the majority of lymphocytes remained in the peritoneum, significant numbers of T lymphocytes were located in the spleen, where human IL-4, IL-5, and IFN-gamma messenger RNA expression was detected after stimulation with PHA and phorbol myristate acetate. Failure to induce cytokine production by human T lymphocytes isolated from the peritoneum and spleen of hu-PBL-SCID mice by allergen was reversed by stimulating with allergen in the presence of exogenously added IL-2 and antigen-presenting cells (APC), particularly CD14(+) monocytes. Under these conditions, allergen-reactive T cells expressed a T(H)2-like phenotype.

CONCLUSIONS

These data suggest that, after initial activation and induction of antibody production, human T lymphocytes enter a state of unresponsiveness, arising from a loss of human professional APC, in hu-PBL-SCID mice. The use of hu-PBL-SCID mouse models in studies on therapeutic approaches for allergy may benefit from the additional transfer of human professional APC.

Impact of in utero Th2 immunity on T cell deviation and subsequent immediate-type hypersensitivity in the neonate

It was the aim of this study to analyze the impact of maternal Th2 immune responses on onset and subsequent development of allergen-specific immunity and immediate-type hypersensitivity in early childhood. In a well characterized mouse model of Th2 immunity, BALB / c mice were sensitized to ovalbumin (OVA) before mating followed by allergen aerosol exposure during pregnancy. At the end of pregnancy mice developed allergen-specific Th2 / Th0 immunity and immediate-type hypersensitivity responses to OVA. T cells from these newborns, when restimulated with PMA / ionomycin, demonstrated a lowered capacity to produce IFN-gamma. To assess whether prenatal allergen exposure favors postnatal onset of a Th2-type immune response, these offspring were immunized to a novel antigen by a single injection of beta-lactoglobulin (BLG). In contrast to offspring from non-sensitized mothers, offspring from OVA-sensitized mice showed both higher anti-BLG immunoglobulin titers and higher frequencies of immediate-type skin test responses. Our data suggest that Th2 / Th0 immunity present during pregnancy has a decisive impact on shaping of the Th1 / Th2 T cell profile in the neonate. Furthermore, this effect favors the development of Th2 immune responses, when mice are exposed to a novel antigen during early childhood.

Sequential development of airway hyperresponsiveness and acute airway obstruction in a mouse model of allergic inflammation

BACKGROUND

Mouse models have been established mirroring key features of human bronchial asthma including airway hyperresponsiveness (AHR). Acute airway obstruction in response to an allergen challenge, however, remains to be demonstrated in these models.

OBJECTIVE

A mouse model of allergic lung inflammation was employed to analyze the development of specific (allergen-induced) and nonspecific (methacholine-induced) airway obstruction.

METHODS

Mice were sensitized to ovalbumin (OVA) and challenged with OVA aerosol twice each week during four weeks. Changes in lung functions were determined by noninvasive head-out body plethysmography. The development of acute airway obstruction after OVA challenge and AHR after methacholine aerosol application were assessed by a decrease in the mid-expiratory flow rate (EF(50)).

RESULTS

Two airway challenges were sufficient to induce AHR (5.7 vs. 15 mg/ml methacholine). Further OVA challenges reduced the baseline EF(50) from 1.85 to 1.20 ml/s (4th week) and induced acute airway obstruction. The OVA-induced obstruction was maximal in the 4th week (EF(50) = 0.91 ml/s).

CONCLUSION

The development of acute airway obstruction in allergen-sensitized mice was demonstrated by means of head-out body plethysmography. In our model, AHR was observed before the development of airway obstruction.

Impact of V beta 8+/+ T cells on the development of increased airway reactivity and IgE production in SJL mice

SJL mice have been extensively characterized as "low-responder" animals in terms of IgE-dependent immediate-type hypersensitivity responses. Since these mice are genetically deficient in certain TCR Vbeta gene segments, we asked whether this might be the reason for the "low-responder" status. Specifically in H-2d mice the TCR-Vbeta8.2 gene element has been shown to play an important role in Th2 immune responses to ovalbumin (OVA). Utilizing a TCR Vbeta8. 2-transgenic SJL (SJL Vbeta8+/+) mouse, we examined whether the H-2s -bearing "low-responder" mouse could be converted into a "high-responder" animal. Remarkably, non-sensitized SJL Vbeta8+/+ mice demonstrated strongly elevated levels of total IgE antibody. Mitogen-stimulated T cells from these mice released high amounts of IL-4 as compared to SJL wild-type (wt) mice. In addition, sensitization to OVA via the airways resulted in the development of increased airway responsiveness in SJL Vbeta8+/+ mice, but not in SJL wt animals. The results indicate that the capacity to produce IgE and IL-4 and to develop increased airway responsiveness can be restored in SJL wt mice by introducing the Vbeta8.2 gene segment into the TCR repertoire.

Airway exposure to bacterial superantigen (SEB) induces lymphocyte-dependent airway inflammation associated with increased airway responsiveness--a model for non-allergic asthma

Although immunological consequences of systemic superantigen administration have been extensively studied, the effects of local mucosal exposure to superantigens are not well defined. The purpose of this study was to delineate the type of immune response triggered by superantigen exposure to the airway mucosa in mice. In dose-response experiments we determined a low dose of staphylococcal enterotoxin B (SEB) that triggered an inflammatory response characterized by mucosal and airway recruitment of lymphocytes, eosinophils and neutrophils together with elevated levels of IL-4, but not IFN-gamma, in bronchoalveolar lavage (BAL) fluids. TCR Vbeta analysis revealed that superantigen-responsive and -non-responsive T cells were equally recruited into the airways. SEB markedly enhanced the frequency of TNF-alpha-positive BAL macrophages as well as the amount of TNF-alpha in BAL fluids. These responses were associated with the development of increased airway responsiveness (AR) in SEB-treated mice. This effect occurred in an antibody-independent fashion. Furthermore, this type of response was observed in IgE-high responder BALB/c as well as in IgE-low/intermediate responder C57BL/6 mice. The development of increased AR was CD4+ T cell dependent as shown by transfer experiments into BALB/c nu/nu mice. These results suggest that the local immune response following mucosal superantigen administration triggers a unique inflammatory response in the airways resembling many features of "intrinsic asthma".

Prevalence and role of serum IgE antibodies to the Staphylococcus aureus-derived superantigens SEA and SEB in children with atopic dermatitis

BACKGROUND

The skin of patients with atopic dermatitis exhibits a striking susceptibility to colonization and infection with Staphylococcus aureus. In this context it has been previously shown that S aureus-derived superantigens could function as classic allergens, inducing production of functionally relevant specific IgE antibodies.

OBJECTIVE

The aim of this study was to determine the prevalence and the role of circulating staphylococcal enterotoxin A (SEA)- and staphylococcal enterotoxin B (SEB)-specific IgE antibodies in children with atopic dermatitis.

METHODS

In a cross-sectional study of 58 children with atopic dermatitis, the presence of IgE antibodies to SEA and SEB was correlated with the severity of the disease and the total and other unrelated allergen-specific IgE titers and density of colonization with S aureus strains on atopic skin and episodes of superficial S aureus skin infections.

RESULTS

Twenty of 58 children (34%) were sensitized to superantigens (45% to SEB, 10% to SEA, 45% to SEA and SEB). In this group, severity of atopic dermatitis and levels of specific IgE to food and air allergens were significantly higher. The degree of disease severity correlated to a higher extent with the presence of SEA/SEB-specific antibodies than with total serum IgE levels. Density of colonization with superantigen-secreting S aureus strains was higher in the superantigen IgE-positive group. Sixty-three percent of these children experienced repeated episodes of superficialS aureus skin infections.

CONCLUSIONS

Sensitization to S aureus-derived superantigens may be involved in disease exacerbation. The presence of SEA/SEB-specific antibodies had additional explanatory value for disease severity and therefore may be helpful in the characterization of children with severe atopic dermatitis.

BCG infection suppresses allergic sensitization and development of increased airway reactivity in an animal model

BACKGROUND

Epidemiologic studies suggest an inverse correlation between infections and development of atopy. The purpose of this study was to test the hypothesis whether a preexisting Th1-type immune response elicited by BCG immunization could suppress allergic sensitization and airway hyperreactivity in an animal model.

METHODS

BALB/c mice were immunized with BCG and/or sensitized to ovalbumin.

RESULTS

BCG immunization alone resulted in cutaneous type-IV hypersensitivity reactions to tuberculin and granulomatous lesions in the liver. Splenic mononuclear cells (MNCs) produced increased levels of IFN-gamma after activation by Concanavalin A (ConA). Ovalbumin sensitization alone resulted in increased production of IL-4 after activation by ConA. Ovalbumin-sensitized animals also demonstrated markedly elevated anti-ovalbumin IgE/IgG1 serum antibody titers and increased airway reactivity after allergen challenges by means of the airways. BCG immunization 14 days before the start of ovalbumin sensitization markedly hindered the development of allergic responses as indicated by (1) increased IFN-gamma and normalized IL-4 and IL-10 production by splenic MNCs after activation with ConA, (2) a reduced proliferation rate of splenic MNCs after ovalbumin restimulation, (3) partial prevention of ovalbumin-specific IgE/IgG1 serum antibody titers but elevated (nonallergic) anti-ovalbumin IgG2a serum antibody titers, (4) prevention of airway responsiveness, (5) reduced eosinophilic influx into the airway lumen, and (6) reduced levels of IL-4 and IL-5 in broncho alveolar lavage fluids.

CONCLUSION

In this model BCG immunization established a Th1-type immune response that hinders allergic sensitization and the development of increased airway reactivity.

IL-15-IgG2b fusion protein accelerates and enhances a Th2 but not a Th1 immune response in vivo, while IL-2-IgG2b fusion protein inhibits both

We have explored how IL-15 influences Th1 or Th2 type immune response in vivo. Intraperitoneal application of an IL-15-IgG2b fusion protein (FP) to mice did neither significantly affect the footpad swelling nor the production of hemagglutinizing antibodies in a delayed type hypersensitivity reaction to sheep red blood cells. In contrast, in an established murine Th2 model of sensitization to ovalbumin (OVA), IL-15-IgG2b FP plus OVA sensitization resulted in massively accelerated and enhanced allergen-specific IgE and IgG1 antibody production. In vitro, stimulation of spleen cells from OVA-sensitized mice with OVA+IL-15 or OVA+IL-15-IgG2b resulted in a significantly enhanced IgE production. IL-4 secretion was significantly induced by IL-15 but not by IL-15-IgG2b. An IL-2-IgG2b FP with the same Fc tail as the IL-15-IgG2b FP was used as control in both models. In striking contrast to the IL-15-IgG2b FP, IL-2-IgG2b significantly inhibited the Th2 type antibody production in vivo. The current study suggests that IL-15-IgG2b may be employed as a potent accelerator and enhancer of Th2 type immune responses in vivo, while IL-2-IgG2b can suppress the latter.

Role of nerve growth factor in a mouse model of allergic airway inflammation and asthma

The role of nerve growth factor (NGF), a potent mediator acting in the development and differentiation of both neuronal and immune cells, was examined in a mouse model of allergic asthma. NGF-positive cells were detected in the inflammatory infiltrate of the lung and enhanced levels of NGF were detected in serum and broncho-alveolar lavage fluids. Mononuclear cells in inflamed airway mucosa as well as broncho-alveolar macrophages were identified as one source of NGF production. Splenic mononuclear cells from allergen-sensitized mice produced NGF in response to allergen. They responded to exogenously added NGF with a dose-dependent increase in IL-4 and IL-5 production and augmented IgE and IgG1 synthesis. In contrast, IFN-gamma and IgG2alpha levels remained unaffected. The effects were NGF specific, since they could be blocked by an anti-NGF-antibody. Nasal application of anti-NGF to allergen-sensitized mice significantly reduced IL-4 and prevented development of airway hyperreactivity. These results show that allergic airway inflammation is accompanied by enhanced local NGF production that acts as an amplifier for Th2 effector functions and plays an important role in the development of airway hyperreactivity. Therefore it is suggested that NGF may serve as a link between the immune and nerve system.

Various immunological phenotypes are associated with increased airway responsiveness

BACKGROUND

Bronchial asthma is characterized by a TH2 type immune response, chronic inflammation of the airways and increased airway responsiveness. The relationship between IgE- and inflammatory-dependent mechanisms that contribute to bronchial asthma are not well defined.

OBJECTIVE

The purpose of this study was to compare and analyse the immune pathways that resulted in development of allergen-induced and/or inflammatory dependent increased airways responsiveness.

RESULTS

BALB/c and C57BL/6 mice responded to OVA-sensitization with elevated allergen-specific IgE/IgG1 serum antibody-titres and the development of cutaneous immediate-type hypersensitivity reactions. Increased airway responsiveness was observed following airway allergen challenges. However, the inflammatory component of the lung differed between the strains. In OVA-sensitized BALB/c mice a marked increase in lymphocytes, eosinophils and neutrophils in BAL fluids was parallelled with elevated production of IL-4, IL-5 and TNFalpha in the lung. In contrast in OVA-sensitized C57BL/6 mice, the inflammatory immune response in the lung was much weaker. We postulate that two pathways can regulate the induction of increased airway responsiveness. One depends on the presence of allergen-specific IgE/IgG1 and allergen, and a second is mediated by allergen-independent inflammation of the lung. To test this hypothesis, BALB/c mice were treated nasally with low doses of bacterial superantigen (SEB) as a prototypical inducer of airway inflammation, following which influx of lymphocytes, eosinophils and neutrophils into the airways was parallelled by development of increased airway-responsiveness in the absence of allergen-specific IgE/IgG1 antibodies and allergen.

CONCLUSIONS

These results indicate that increased airway responsiveness is associated with different immunological phenotypes in BALB/c and C57BL/6 mice.

A human-SCID mouse model for allergic immune response bacterial superantigen enhances skin inflammation and suppresses IgE production

Chronic skin colonization with Staphylococcus aureus is a well-known feature in atopic dermatitis. The aim of this study was to develop a human-SCID mouse model to analyze the possible role of bacterial superantigens in human allergic immune responses under in vivo conditions. SCID mice were reconstituted with peripheral blood mononuclear cells (between 2 and 9 x 10(7) cells per mouse) from atopic dermatitis patients sensitized to house dust mite allergen (Der p). Total and Der p specific antibody production required the following conditions: (i) injection of Der p; (ii) presence of CD14+ antigen-presenting cells; and (iii) IL-4 as shown by the inhibitory effect of human soluble IL-4 receptor on immunoglobulin E production. This model was used to study the immunomodulatory effects of the superantigen staphylococcal enterotoxin B in comparison with Der p. In intraperitoneally reconstituted human-SCID mice, topical treatment was ineffective in inducing skin inflammation. Therefore, additionally to intraperitoneal transfer, peripheral blood mononuclear cells from atopic donors were also injected intradermally. Such reconstituted SCID mice were then exposed via the skin to either Der p, staphylococcal enterotoxin B, or a combination of both. Maximal effects on epidermal inflammation and dermal T cell infiltration were obtained with staphylococcal enterotoxin B and Der p. Staphylococcal enterotoxin B alone was less effective and Der p only stimulated dermal T cell infiltration. These findings support the hypothesis that bacterial superantigens can act as trigger factors in allergic skin inflammation.

Role of T cells in atopic dermatitis. New aspects on the dynamics of cytokine production and the contribution of bacterial superantigens

Atopic dermatitis (AD) is a chronically relapsing inflammatory skin disease. Influx of activated T cells into the skin lesions represents a hallmark in AD. Recent results indicate a dynamic T-cell-derived cytokine production in AD. In addition to the well-known TH-2 component, chronic lesions and late-phase allergic responses are characterized by an TH-1/TH-0 cytokine pattern. Although there is no doubt that aeroallergens can contribute to the elicitation of acute- and late-phase allergic responses in AD, their role in the immunopathogenesis is controversally discussed. Recent attention has been given to the long-known phenomenon of persistent colonization of AD skin with S. aureus and the potential role of S. aureus-derived superantigens. Evidence from several in vitro and in vivo studies suggests that such bacterial superantigens have the potency to trigger chronic T-cell-mediated skin inflammation. Although these data are certainly suggestive, further clinical studies are required to elucidate the role of bacterial superantigens in initiation, maintenance and, especially, chronicity of skin inflammation.

P- and E-selectin mediate recruitment of T-helper-1 but not T-helper-2 cells into inflammed tissues

When activated, T helper cells differentiate into one of two subsets, Th1 and Th2, characterized by distinct profiles of cytokine production. Th1 cells activate pro-inflammatory effector mechanisms involved in protection and autoimmunity, whereas Th2 cells induce humoral and allergic responses and downregulate local inflammation. Apart from differences in the repertoire of cytokines, no phenotypic attributes are established that distinguish the two subsets. Here we show that Th1 cells, but not Th2 cells, are able to bind to P-selectin and E-selectin. Moreover, only Th1 cells can efficiently enter inflamed sites in Th1-dominated models, such as sensitized skin or arthritic joints, but not in a Th2-dominated allergic response. Immigration of Th1 cells into inflamed skin can be blocked by antibodies against P- and E-selectin. These results provide evidence for adhesion mechanisms to distinguish between the two T helper subsets and mediate their differential trafficking. They indicate that selective recruitment is an additional level of regulation for both effector function profile and character of a local immune response.

The relevance of murine animal models to study the development of allergic bronchial asthma

Bronchial asthma (BA) develops on the basis of a genetic predisposition and involves a characteristic sequence of changes in immune functions. In the immunopathogenesis, several phases can be distinguished: the initial stage is defined as the development of allergic sensitization. This step is dependent on: (i) T cell activation; (ii) IL-4 production; (ii) IgE synthesis; and (iv) mediator release by effector cells. The second phase of allergic inflammation as a consequence of the T cell dependent sensitization is characterized by IL-5 production and eosinophil activation and recruitment. Airway mucosa remodelling is the consequence of chronic inflammatory processes and represents the final stage of BA. In this article animal models will be discussed with regard to their relevance for these different phases in development of chronic allergic BA.

Murine animal models to study the central role of T cells in immediate-type hypersensitivity responses

The development of allergic sensitization and inflammation is dependent on activation and stimulation of T cells that exhibit pro-allergic functions. A mouse model system was developed to study the role of T cells in allergic sensitization in more detail. Local sensitization of mice stimulates an allergen specific IgE/IgG1 response that is associated with the development of immediate type skin test responses and increased airway responsiveness (AR). Strains of mice are identified that are high or low responder animals for allergens including ovalbumin and house dust mite. Each allergen stimulates a different pattern of T-cell receptor V beta expressing T cells in local draining lymph nodes. To induce a state of increased AR, at least two separate events are required. The first event is the presence of allergen specific IgE/IgG1. The second event is characterized as a local allergen challenge at the site of the response. These T cells play a critical role in the regulation of the allergic immune response including IgE production and increased AR. Based on these results intervention strategies can be developed which specifically target the development and function of these allergen specific T-cell populations and modify their pro-allergic activities.

Role and modulation of T-cell cytokines in allergy

Allergic sensitization and the development of effector functions are controlled by IL-4-secreting and IL-5-secreting type 2 T cells. Recent studies have provided new insights into the events triggering the development of type 1 and type 2 T cells, the discrimination of type 1 and type 2 effector T cells from various T-cell subsets, and the improvement of established and new therapeutic strategies, which are aimed at modulating such T-cell functions in the allergic patient.

Therapeutic interference with interferon-gamma (IFN-gamma) and soluble IL-4 receptor (sIL-4R) in allergic diseases

Allergic sensitization is controlled by CD4+ T cells. A complex interaction between antigen-presenting cells, T- and B-cells results in the production of (allergen) specific IgE. Analysis of the lymphokine profile of lymphocytes from patients with bronchialasthma and atopic dermatitis revealed an imbalance in cytokine production. An enhanced production of IL-4 was accompanied by low or absent amounts of IFN-gamma. Since both cytokines play a central role in the regulation of IgE, it was examined whether therapeutic interference on the level of cytokine production may provide an useful tool to alter lymphocyte functions in allergic diseases. Two different model systems were employed to study the effects of soluble IL-4R (sIL-4R) under in vitro and in vivo conditions. (1) A mouse model system for allergic sensitization and increased airways responsiveness (AR) was employed to examine whether in vivo treatment with recombinant murine sIL-4R may prevent the development of allergic sensitization. It was found that local treatment through the airways and the lung as carried out by aersolization of the receptor offered a route of application that prevented the development of allergen-induced and allergen-dependent immediate hypersensitivity responses including the development of increased AR. (2). The in vitro effects of humans sIL-4R on functions of mononuclear cells prepared from two patients with most severe atopic dermatitis were examined. Incubation of lymphocytes with allergens in the presence and absence of sIL-4R indicated that the soluble receptor suppressed allergen-induced lymphocyte proliferation and allergen-dependent IgE, IgG and IgM production. In addition a complete suppression of allergen-specific IgE production was detected in the presence of sIL-4R. These data suggest that sIL-4R may provide a useful drug to modify lymphocyte-dependent immune functions in allergic diseases.

Translation of nad9 mRNAs in mitochondria from Solanum tuberosum is restricted to completely edited transcripts

The pool of partially and completely edited mRNAs present in plant mitochondria could potentially be translated into a mixture of divergent proteins. This possibility was investigated for the nad9 gene in potato by characterization of the mRNA population and the corresponding protein sequence. The deduced amino acid sequence of the nad9 gene product has significant similarity to the nuclear-encoded 30 kDa subunit of the bovine and Neurospora NADH:ubiquinone oxidoreductase (complex I) and to the chloroplast ndhJ gene product. Immunoprecipitation of a 27 kDa in-organello 35S labelled mitochondrial translation product with an antibody directed against the wheat nad9 gene product demonstrates its functional expression in potato and wheat. Comparison of the nad9 genomic DNA and cDNA sequences reveals seven codons to be changed by a C to U RNA-editing. Direct sequencing of RT-PCR products derived from cDNAs of different tissues of potato plants shows the presence of a significant portion of only partially edited nad9 transcripts in the various tissues. Amino acid sequencing of internal peptides of the isolated 27 kDa protein from potato tubers demonstrates homogenous translation products of only completely edited nad9 mRNAs even in the presence of partially edited mRNAs. This result suggests a pretranslational selection between edited and incompletely edited mRNAs in plant mitochondria.

The 42.5 kDa subunit of the NADH: ubiquinone oxidoreductase (complex I) in higher plants is encoded by the mitochondrial nad7 gene

The N-terminal amino acid sequence of a 42.5 kDa subunit of the NADH: ubiquinone oxidoreductase (complex I) from potato has been determined by direct protein sequencing. The sequence was found to be homologous to that of the nuclear-encoded 49 kDa complex I subunit of bovine and Neurospora mitochondria and to the sequence deduced from the mitochondrial nad7 gene identified in the mitochondrial (mt) DNA of tryp anosomes and the moss Marchantia. An oligonucleotide probe derived from the potato N-terminal protein sequence hybridized only to the plant mtDNA. Immunoprecipitation of in-organello 35S-labelled potato and wheat mitochondrial translation products with an antibody directed against the Neurospora 49 kDa complex I subunit indicates that at least in these plants the NAD7 protein is synthesized within the organelle. Comparisons of genomic, cDNA and protein sequences of the 5' coding region reveal three codons that are changed by RNA-editing and confirm translation of the edited transcripts in plant mitochondria. The NAD7 protein appears to undergo post-translational processing since the N-terminal methionine residue is absent from the mature mitochondrial protein.

Purification of the NADH:ubiquinone oxidoreductase (complex I) of the respiratory chain from the inner mitochondrial membrane of Solanum tuberosum

The plant NADH:ubiquinone oxidoreductase (or complex I) was isolated from potato (Solanum tuberosum) mitochondria. The multisubunit enzyme was solubilized with detergents, Triton X-100 and 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS), out of the inner mitochondrial membranes and purified by hydroxylapatite and gel filtration chromatography. The preparation was found to be virtually free of any ATPase or transhydrogenase contamination. Complex I of potato is composed of at least 32 individual subunits as detected in silver-stained sodium dodecyl sulfate-polyacrylamide gel electrophoresis and has a total molecular mass of about 900 kDa. The enzyme preparation showed an NADH:ubiquinone-2 reductase activity of 11.5 mumol x min-1 x mg-1 and is strongly inhibited by rotenone. Heterologous polyclonal antibodies against the 70- and 49-kDa subunits of the Neurospora crassa complex I and against the wheat NAD9 subunit cross-reacted specifically with the respective potato subunits. Four of the 10 NH2-terminal sequences determined show significant similarities to Neurospora or bovine complex I subunits and allow a tentative assignment of these subunits.