Paul Steele

Adoptive transfer of lymphocytes sensitized to the major surface glycoprotein of Pneumocystis carinii confers protection in the rat.

Pneumocystis carinii is a major opportunistic pathogen and a leading cause of morbidity in patients with AIDS. CD4+ cells have been shown to be important in host defenses against P. carinii, but the antigen(s) involved with this response have not been identified. We undertook the present study to determine whether the major surface glycoprotein (MSG) of P. carinii contains epitopes that can elicit a protective cellular immune response. Spleen cells and purified CD4+ cells isolated from Lewis rats, pulsed 1-4 d with MSG, and injected into corticosteroid-treated Lewis rats with pneumocystosis resulted in significant reduction in the P. carinii burden, as judged by organism quantitation and lung histology. The protective response demonstrated by the donor cells was dependent on previous exposure to P. carinii, cell concentration, and time of incubation with MSG. In addition, reconstitution with MSG-specific CD4+ cells resulted in an early hyperinflammatory response within the lungs of these animals with a high percentage of mortality. Thus, in this model, MSG can elicit an immune response mediated by CD4+ cells, which has a harmful as well as helpful effect on the host, and these responses occur despite the presence of corticosteroids.

Immunosuppressed Surfactant Protein A–Deficient Mice Have Increased Susceptibility to Pneumocystis carinii Infection

Immunosuppressed Swiss Black mice deficient in surfactant protein A (SP-A(-/-)) and wild-type control mice (SP-A(+/+)) were exposed to Pneumocystis carinii by environmental exposure, intratracheal inoculation, and direct exposure to other infected animals. The frequency and intensity of P. carinii infection were significantly greater in the SP-A(-/-) mice by all 3 methods of exposure. P. carinii free of SP-A and alveolar macrophages were isolated from SP-A(-/-) mice and were tested in an in vitro attachment assay. Pretreatment of P. carinii with human SP-A resulted in a significant dose-dependent increase of the adherence of P. carinii to the macrophages. Thus, SP-A plays a role in host defense against P. carinii in vivo, perhaps by functioning as a nonimmune opsonin.

Activities of antifolate, antiviral, and other drugs in an immunosuppressed rat model of Pneumocystis carinii pneumonia.

The efficacy of antifolate, antiviral, and other drugs was compared in an experimental model of pneumocystosis. Sulfamethoxazole (SMX) administered alone in doses of greater than or equal to 60 mg/kg/day was highly effective in treatment and prophylaxis. Low (less than or equal to 15 mg/kg/day) doses of SMX showed limited, dose-related anti-Pneumocystis carinii activity in therapy but were more effective in prophylaxis. The dihydrofolate reductase (DHFR) inhibitors trimethoprim (TMP), pyrimethamine, and trimetrexate exhibited little anti-P. carinii activity when administered alone and did not enhance the efficacy of SMX; the effects of the DHFR inhibitors could not be related to the dose or the concentration in serum. These data suggested that the rat model is an excellent system for studying the anti-P. carinii activity of sulfonamides but is of limited value in studying DHFR inhibitors. The antiviral drugs azidothymidine, dideoxyinosine, inosine pranobex (Isoprinosine), amantadine, and acyclovir displayed little or no activity against P. carinii; however, azidothymidine did not impair the efficacy of SMX or TMP-SMX. These results supported the clinical practice of giving antiviral agents together with antifolate drugs to patients infected with human immunodeficiency virus and suggested that the beneficial effects of antiviral agents on the occurrence of pneumocystosis are due mainly to their effects on the virus or the host immune response. In contrast to the antiviral drugs, 9-deazainosine, a nucleoside analog with antiprotozoal properties, demonstrated marked activity against P. carinii which was related to dose and route of administration. These data raised the possibility that anti-P. carinii activity is a general property of purine nucleosides and suggested that further exploration of this class of compounds might lead to clinically useful agents.

Bioequivalence of coenzyme Q10 from over-the-counter supplements

Abstract The objective of this study was to compare the relative bioavailability of two new products with solubilized and non-solubilized over-the-counter (OTC) coenzyme Q 10 products. Nine healthy adults were given single 180 mg doses of each coenzyme Q 10 formulation at two week intervals. A commercially-marketed, non-solubilized Q 10 powder formulation (product D) was only minimally absorbed, and was excluded from the analysis of data. ANOVA comparison of maximum plasma concentrations (C max ), time of maximum concentrations (t max ), areas under the concentration-time curves from times zero to 144 hours post dose (AUC 0-144h ), and areas under the concentration-time curves from times zero to infinity (AUC 0-∞ ) were not significantly different ( P > 0.05) between test products A (LiQ-10™) and B (Q-Nol™) and the reference product C (UbiQGel®). The upper limits of the 90% confidence intervals of the log-transformed ratios (A:C and B:C) of C max, AUC 0-144h, and AUC 0-∞ were >1.25 for both test products, but significant ( P 0-144h. The results of this study indicate that LiQ-10™ has increased bioequivalence compared to the reference product, but did not reach statistical significance. Q-Nol™ has increased bioavailability compared to the reference product ( P

Immunization with the major surface glycoprotein of Pneumocystis carinii elicits a protective response

Pneumocystis carinii, a leading opportunistic pulmonary pathogen, contains a major surface glycoprotein (MSG) which plays a central role in its interaction with the host. Naive Lewis rats were immunized with varying concentrations of purified native MSG and a recombinant form of the protein (MSG-B), placed in a conventional rat colony with exposure to P. carinii, and immunosuppressed with corticosteroids for 10 weeks to induce the development of pneumocystosis. Immunization elicited humoral and cellular immune responses to MSG which persisted throughout the experiment. Compared with animals immunized with ovalbumin or adjuvant alone, the MSG-immunized rats had improved survival (29 vs 66%, p < 0.001), lowered organism burden (log10 9.03 +/- 0.33/lung vs 7.51 +/- 0.38/lung, p < 0.001), less alveolar involvement as assessed by lung histologic score (3.54 +/- 0.42 vs 2.50 +/- 0.42, p < 0.01) and lung weight:body weight ratio (18.2 +/- 1.4 vs 14.6 +/- 1.7, p < 0.01). Animals immunized with MSG-B also showed a significantly lower organism burden, lung histologic score and lung weight:body weight ratio than control rats. Thus, MSG is the first P. carinii antigen which can elicit a protective response in the immunosuppressed rat model of pneumocystosis and this finding supports the rationale of developing a P. carinii vaccine.

Treatment of experimental pneumocystosis: review of 7 years of experience and development of a new system for classifying antimicrobial drugs.

Over a 7-year period, we analyzed 261 dose regimens of antimicrobial drugs in the treatment and prevention of Pneumocystis carinii pneumonia in an immunosuppressed rat model. These compounds ranged from drugs in clinical use to newly synthesized agents. Drug efficacy was expressed as the magnitude of the reduction in median P. carinii cyst or nucleus counts on a scale ranging from inactive (less than 5-fold) to very markedly active (greater than or equal to 1,000-fold). The classification system was reproducible and allowed drugs studied at different times to be compared with each other. The system demonstrated a hierarchy of anti-P. carinii activity not only among classes of compounds but also among individual members of a drug class. Sulfonamides, sulfones, and diamidines were the most active agents; some purine nucleosides and nitrofurans also showed promising activity; and most antiparasitic, antifungal, antibacterial, and antiviral drugs were inactive. We conclude that this classification system represents a simple, quantitative method of comparing the activities of antimicrobial drugs against P. carinii. Information gained from this system should be helpful in developing new anti-P. carinii compounds and establishing standard procedures for their evaluation.

Systemic lupus erythematosus-associated lymphoproliferative disorder: Report of a case and discussion in light of the literature

A case of autoimmune disease-associated lymphadenopathy (ADAL) with histological, immunophenotypic, Epstein-Barr virus (EBV) in situ hybridization, and genotypic analyses is presented. The patient had a well-documented history of systemic lupus erythematosus (SLE) and was found at autopsy to have massive lymphadenopathy, thymic enlargement, pulmonary nodules, and polyclonal serum dysproteinemia. Histological examination revealed a polymorphous lymphoid infiltrate containing many plasma cells, rare immunoblasts, and a pronounced arborizing vasculature. No foci of necrosis were found and there was no evidence of lymphocyte depletion. The plasma cells were immunophenotypically polyclonal and no EBV mRNA (EBER-1) or gene rearrangements were identified. The unusual gross features, which resembled a malignant lymphoproliferative process, as well as the unusual histological features make this case a notable addition to the spectrum of atypical lymphoproliferative disorders associated with an autoimmune disorder. We conclude that although reminiscent of angioimmunoblastic lymphadenopathy with dysproteinemia (AILD), this case lacks the diagnostic features of AILD, and is, perhaps, best classified as an autoimmune disease-associated lymphadenopathy (ADAL).

Synergistic combinations of Ro 11-8958 and other dihydrofolate reductase inhibitors with sulfamethoxazole and dapsone for therapy of experimental pneumocystosis.

We compared Ro 11-8958, an analog of trimethoprim (TMP) with improved antimicrobial and pharmacokinetic properties, other dihydrofolate reductase (DHFR) inhibitors, sulfamethoxazole (SMX), and dapsone (DAP) in the treatment of Pneumocystis carinii pneumonia in an immunosuppressed rat model. In contrast to previous reports, high dosages of the DHFR inhibitors were used in combination with fixed, low dosages of SMX (3 mg/kg of body weight per day) or DAP (25 mg/kg/day). When administered alone at these dosages, SMX and DAP reduced the median P. carinii cyst count about 5- to 15-fold. Ro 11-8958, TMP, and diaveridine used at a dosage of 20 mg/kg/day with SMX were only slightly more effective than SMX used alone. However, administration of these DHFR inhibitors at a dosage of 100 mg/kg/day with SMX lowered the cyst count about 500- to 1,000-fold, indicating a synergistic effect. Little or no synergism was found when other DHFR inhibitors (pyrimethamine, cycloguanil, and tetroxoprim) were combined with SMX. Regimens of Ro 11-8958 at a dosage of 20 mg/kg/day with DAP and of TMP or diaveridine used at a dosage of 100 mg/kg/day with DAP showed comparable anti-P. carinii activity, lowering the cyst count 100- to 200-fold. By contrast, Ro 11-8958 administered at a dosage of 100 mg/kg/day with DAP reduced the cyst count > 1,000-fold. Thus, the experimental approach used here enables the rat model of pneumocystosis to be used to compare synergistic combinations of antifolate drugs. The favorable results achieved with Ro 11-8958 indicate that it should be considered for clinical trials.

Immunodeficient and immunosuppressed mice as models to test anti-Pneumocystis carinii drugs.

Congenitally immunodeficient and immunosuppressed normal mice with naturally acquired Pneumocystis carinii infection were compared as models for testing anti-P. carinii drugs. Among the immunodeficient mice, mice with severe combined immunodeficiency disease (scid), which lack B and T cells, had higher levels of P. carinii pneumonia than did microMT mice, which lack K cells. Normal mice administered dexamethasone in the drinking water had more extensive pneumocystosis than mice administered parenteral methylprednisolone or hybridoma cells making a monoclonal antibody to CD4 cells. The standard anti-P. carinii drugs trimethoprim (TMP)-sulfamethoxazole (SMX), pentamidine, and atovaquone, which work well in rats and humans, worked well in the mice. Clindamycin and primaquine were effective in the scid and microMT mice but not in the immunosuppressed normal mice. High doses of epiroprim, an analog of TMP, appeared to enhance the activities of low doses of SMX and dapsone, while high doses of TMP did not; however, further studies are needed before definitive conclusions about the actions of these drugs can be drawn. Taken together, the data obtained in this study support the growing body of literature suggesting that the mouse is a valid alternative to the rat as a model for testing anti-P. carinii drugs. Additional differences involving the activities of individual drugs in these models will probably emerge as more experience is gained.

Conservation of cation-transporting ATPase genes in Leishmania

DNA fragments isolated from Leishmania donovani ATPase genes were used to analyze the organization and expression of cation transporting ATPase genes in L. donovani, Leishmania tropica, Leishmania mexicana, Leishmania braziliensis, Trypanosoma brucei and Trypanosoma cruzi. The ATPase loci in all Leishmania species contained a tandem pair of ATPase genes arranged in head-to-tail orientation and separated by approximately 2 kb. No restriction site polymorphisms were detected in the internal portions of the Leishmania ATPase genes which contain domains conserved between the L. donovani and other eukaryotic plasma membrane ATPases. The ATPase locus of each of the four Leishmania species was mapped to a single small chromosome of approximately 750 kb. The ATPase locus of L. mexicana was differentially expressed. Promastigotes in exponential growth contained abundant transcripts from the upstream ATPase gene, while transcripts from the downstream gene were relatively scarce. Transcripts from the downstream ATPase gene increased in abundance in promastigotes allowed to reach the stationary phase of growth and were most abundant in amastigotes. The two trypanosome species were found to contain DNA fragments that hybridized strongly to the Leishmania ATPase gene.