Michael J. Linke

Persistence of Lung CD8 T Cell Oligoclonal Expansions upon Smoking Cessation in a Mouse Model of Cigarette Smoke-Induced Emphysema

The role of adaptive immunity in the development or progression of chronic obstructive pulmonary disease (COPD) remains undefined. Recently, the presence of autoantibodies and autoreactive T cells has been demonstrated in COPD patients. In addition, oligoclonal expansions of lung T cells have been observed in COPD patients, but the overlapping incidence of infections, tumors, and cigarette smoke exposure obscures the antigenic stimulus. We analyzed the TCR Vβ repertoire of CD4 and CD8 T cells purified from the lungs and spleens of mice chronically exposed to cigarette smoke. In a mouse model of COPD, we demonstrate that chronic cigarette smoke exposure causes oligoclonal expansions of T cells isolated from the lungs, but not spleens. TCR Vβ repertoire analyses revealed oligoclonal expansions predominantly occurred in lung CD8 T cells, with preferential usage of Vβ7, Vβ9, Vβ13, and Vβ14. Using nucleotide sequence analysis based on Jβ analyses, we demonstrate selection of CDR3 amino acid motifs, which strongly suggests Ag-driven oligoclonal T cell expansion. Analysis of the lung TCR Vβ repertoire of mice with cigarette smoke-induced emphysema, which had undergone smoking cessation for 6 mo, revealed that oligoclonal expansions persisted. This study formally demonstrates that chronic cigarette smoke exposure, alone, causes a persistent adaptive T cell immune response. These findings have important implications for therapeutic approaches in the treatment of COPD, and provide insight into potential mechanisms involved in disease pathogenesis.

Echinocandin treatment of pneumocystis pneumonia in rodent models depletes cysts leaving trophic burdens that cannot transmit the infection.

Fungi in the genus Pneumocystis cause pneumonia (PCP) in hosts with debilitated immune systems and are emerging as co-morbidity factors associated with chronic diseases such as COPD. Limited therapeutic choices and poor understanding of the life cycle are a result of the inability of these fungi to grow outside the mammalian lung. Within the alveolar lumen, Pneumocystis spp., appear to have a bi-phasic life cycle consisting of an asexual phase characterized by binary fission of trophic forms and a sexual cycle resulting in formation of cysts, but the life cycle stage that transmits the infection is not known. The cysts, but not the trophic forms, express β -1,3-D-glucan synthetase and contain abundant β -1,3-D-glucan. Here we show that therapeutic and prophylactic treatment of PCP with echinocandins, compounds which inhibit the synthesis of β -1,3-D-glucan, depleted cysts in rodent models of PCP, while sparing the trophic forms which remained in significant numbers. Survival was enhanced in the echincandin treated mice, likely due to the decreased β -1,3-D-glucan content in the lungs of treated mice and rats which coincided with reductions of cyst numbers, and dramatic remodeling of organism morphology. Strong evidence for the cyst as the agent of transmission was provided by the failure of anidulafungin-treated mice to transmit the infection. We show for the first time that withdrawal of anidulafungin treatment with continued immunosuppression permitted the repopulation of cyst forms. Treatment of PCP with an echinocandin alone will not likely result in eradication of infection and cessation of echinocandin treatment while the patient remains immunosuppressed could result in relapse. Importantly, the echinocandins provide novel and powerful chemical tools to probe the still poorly understood bi-phasic life cycle of this genus of fungal pathogens.

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.

Identity of a cytosolic neutral cholesterol esterase in rat liver with the bile salt stimulated cholesterol esterase in pancreas

A neutral cholesterol esterase has been purified to homogeneity from the cytosolic fraction of rat liver. The 105,000 x g supernatant fraction of rat liver was applied to a DEAE-cellulose column to isolate a partially purified fraction of hepatic cholesterol esterase. Immunoblot analysis of the partially purified liver fraction with the anti-porcine pancreatic cholesterol esterase IgG demonstrated a single band with a molecular weight of 67,000. The hepatic protein was then isolated by immunoaffinity chromatography technique using a column constructed with antibodies prepared against the pancreatic cholesterol esterase. Characterization of the hepatic cholesterol esterase revealed that the hepatic enzyme shared antigenic epitopes with the pancreatic cholesterol esterase and was similarly activated by addition of bile salt such as taurocholate. Moreover, amino-terminal sequencing analysis of the hepatic cholesterol esterase showed an identical sequence with the pancreatic enzyme. Taken together, these results showed that the cholesterol esterases in the liver and the pancreas are very similar and possibly identical proteins.

Protein Oxidation and Heme Oxygenase-1 Induction in Porcine White Matter following Intracerebral Infusions of Whole Blood or Plasma

Spontaneous or traumatic intracerebral hemorrhage (ICH) in the white matter of neonates, children and adults causes significant mortality and morbidity. The detailed biochemical mechanisms through which blood damages white matter are poorly defined. Presently, we tested the hypothesis that ICH induces rapid oxidative stress in white matter. Also, since clot-derived plasma proteins accumulate in white matter after ICH and these proteins can induce oxidative stress in microglia in vitro, we determined whether the blood’s plasma component alone induces oxidative stress. Lastly, since heme oxygenase-1 (HO-1) induction is highly sensitive to oxidative stress, we also examined white matter HO-1 gene expression. We infused either whole blood or plasma (2.5 ml) into the frontal hemispheric white matter of pentobarbital-anesthetized pigs (∼1 kg) over 15 min. We monitored and controlled physiologic variables and froze brains in situ between 1 and 24 h after ICH. White matter oxidative stress was determined by measuring protein carbonyl formation and HO-1 gene expression by RT-PCR. Protein carbonyl formation occurred rapidly in the white matter adjacent to both blood and plasma clots with significant elevations (3- to 4-fold) already 1 h after infusion. This increase remained through the first 24 h. HO-1 mRNA was rapidly induced in white matter with either whole blood or plasma infusions. These results demonstrate that not only whole blood but also its plasma component are capable of rapidly inducing oxidative stress in white matter. This rapid response, possibly in microglial cells, may contribute to white matter damage not only following ICH, but also in pathophysiological states in which blood-brain-barrier permeability to plasma proteins is increased.

Biofilm formation by Pneumocystis spp.

ABSTRACT Pneumocystis spp. can cause a lethal pneumonia in hosts with debilitated immune systems. The manner in which these fungal infections spread throughout the lung, the life cycles of the organisms, and their strategies used for survival within the mammalian host are largely unknown, due in part to the lack of a continuous cultivation method. Biofilm formation is one strategy used by microbes for protection against environmental assaults, for communication and differentiation, and as foci for dissemination. We posited that the attachment and growth of Pneumocystis within the lung alveoli is akin to biofilm formation. An in vitro system comprised of insert wells suspended in multiwell plates containing supplemented RPMI 1640 medium supported biofilm formation by P. carinii (from rat) and P. murina (from mouse).Dramatic morphological changes accompanied the transition to a biofilm. Cyst and trophic forms became highly refractile and produced branching formations that anastomosed into large macroscopic clusters that spread across the insert. Confocal microscopy revealed stacking of viable organisms enmeshed in concanavalin A-staining extracellular matrix. Biofilms matured over a 3-week time period and could be passaged. These passaged organisms were able to cause infection in immunosuppressed rodents. Biofilm formation was inhibited by farnesol, a quorum-sensing molecule in Candida spp., suggesting that a similar communication system may be operational in the Pneumocystis biofilms. Intense staining with a monoclonal antibody to the major surface glycoproteins and an increase in (1,3)-β-d-glucan content suggest that these components contributed to the refractile properties. Identification of this biofilm process provides a tractable in vitro system that should fundamentally advance the study of Pneumocystis.

Pneumocystis carinii: Growth variables and estimates in the A549 and WI-38 VA13 human cell lines

Recent studies indicate that rat Pneumocystis carinii can be propagated in the A549 cell line, an alveolar epithelioid cell line derived from human lung carcinoma. In the present study, growth of P. carinii was compared in the A549 cell line and the WI-38 VA13 subline 2RA, an SV40 transformed derivative of the human fetal fibroblast cell line with epithelioid morphology. Similar P. carinii growth occurred in both cell lines under optimal conditions, but the WI-38 VA13 cell line was usually more sensitive to changes in the culture system. Growth of P. carinii was affected by temperature, environmental gas mixture, motion of the cultures, and source and concentration of serum additives, but not by the presence of antibodies in the medium. A technique was developed for quantitating P. carinii in the lung inoculum which permitted analysis of P. carinii growth during the first 24 hr of culture. Inverted microscope and oil immersion phase-contrast microscopy were very helpful in monitoring the organisms stages of development and viability. Thus, this culture system should be helpful in establishing standard methodology for in vitro work with P. carinii.

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.

Method of testing the susceptibility of Pneumocystis carinii to antimicrobial agents in vitro.

Rat Pneumocystis carinii grown on lung-derived cell lines in tissue culture flasks and multiwell plates was tested for susceptibility to four antimicrobial agents currently being used in the treatment of human pneumocystosis. Standard criteria for organism quantitation, replication, viability, and inoculum size were established. Trimethoprim-sulfamethoxazole inhibited P. carinii growth at a concentration ratio of 1:19 microgram/ml, and pentamidine isethionate was active at 0.1 microgram/ml. alpha-Difluoromethylornithine, an inhibitor of polyamine biosynthesis, inhibited P. carinii at a concentration of 1 mM once erythrocytes (which are high in polyamine content) were removed from the inoculum; this effect could be overcome by the polyamine putrescine. Dapsone suppressed P. carinii replication at a dose of 0.1 microgram/ml, but this effect was lost after 72 h in culture. Overall, the reduction in P. carinii numbers with these drugs was relatively modest (45 to 84%), which is consistent with their lack of lethal effects on the organism in vivo. Thus, the system presented here should be helpful in developing new anti-P. carinii agents and in elucidating their mechanism of action.

Delayed profound local brain hypothermia markedly reduces interleukin-1β gene expression and vasogenic edema development in a porcine model of intracerebral hemorrhage

White matter (lobar) intracerebral hemorrhage (ICH) can cause edema-related deaths and life-long morbidity. In our porcine model, ICH induces oxidative stress, acute interstitial and delayed vasogenic edema, and up-regulates interleukin-1beta (IL-1beta), a proinflammatory cytokine-linked to blood-brain barrier (BBB) opening. In brain injury models, hypothermia reduces inflammatory cytokine production and protects the BBB. Clinically, however, hypothermia for stroke treatment using surface and systemic approaches can be challenging. We tested the hypothesis that an alternative approach, i.e., local brain cooling using the ChillerPad System, would reduce IL-1beta gene expression and vasogenic edema development even if initiated several hours after ICH. We infused autologous whole blood (3.0 mL) into the frontal hemispheric white matter of 20 kg pentobarbital-anesthetized pigs. At 3 hours post-ICH, we performed a craniotomy for epidural placement of the ChillerPad. Chilled saline was then circulated through the pad for 12 hours to induce profound local hypothermia (14 degrees C brain surface temperature). We froze brains in situ at 16 hours after ICH induction, sampled perihematomal white matter, extracted RNA, and performed real-time RT-PCR. Local brain cooling markedly reduced both IL-1beta RNA levels and vasogenic edema. These robust results support the potential for local brain cooling to protect the BBB and reduce injury after ICH.