Your search keyword '"Crouch Erika C"' showing total 29 results

1. Molecular Mechanisms of Inhibition of Influenza by Surfactant Protein D Revealed by Large-Scale Molecular Dynamics Simulation

Author

Goh, Boon Chong, Rynkiewicz, Michael J., Cafarella, Tanya R., White, Mitchell R., Hartshorn, Kevan L., Allen, Kimberly, Crouch, Erika C., Calin, Oliviana, Seeberger, Peter H., Schulten, Klaus, and Seaton, Barbara A.

Abstract

Surfactant protein D (SP-D), a mammalian C-type lectin, is the primary innate inhibitor of influenza A virus (IAV) in the lung. Interactions of SP-D with highly branched viral N-linked glycans on hemagglutinin (HA), an abundant IAV envelope protein and critical virulence factor, promote viral aggregation and neutralization through as yet unknown molecular mechanisms. Two truncated human SP-D forms, wild-type (WT) and double mutant D325A+R343V, representing neck and carbohydrate recognition domains are compared in this study. Whereas both WT and D325A+R343V bind to isolated glycosylated HA, WT does not inhibit IAV in neutralization assays; in contrast, D325A+R343V neutralization compares well with that of full-length native SP-D. To elucidate the mechanism for these biochemical observations, we have determined crystal structures of D325A+R343V in the presence and absence of a viral nonamannoside (Man9). On the basis of the D325A+R343V–Man9 structure and other crystallographic data, models of complexes between HA and WT or D325A+R343V were produced and subjected to molecular dynamics. Simulations reveal that whereas WT and D325A+R343V both block the sialic acid receptor site of HA, the D325A+R343V complex is more stable, with stronger binding caused by additional hydrogen bonds and hydrophobic interactions with HA residues. Furthermore, the blocking mechanism of HA differs for WT and D325A+R343V because of alternate glycan binding modes. The combined results suggest a mechanism through which the mode of SP-D–HA interaction could significantly influence viral aggregation and neutralization. These studies provide the first atomic-level molecular view of an innate host defense lectin inhibiting its viral glycoprotein target.

Published

2024

2. Collectins, H-ficolin and LL-37 reduce influence viral replication in human monocytes and modulate virus-induced cytokine production

Author

White, Mitchell R, Tripathi, Shweta, Verma, Anamika, Kingma, Paul, Takahashi, Kazue, Jensenius, Jens, Thiel, Steffen, Wang, Guangshun, Crouch, Erika C, and Hartshorn, Kevan L

Abstract

Infiltrating activated monocytes are important mediators of damaging inflammation during influenza A virus (IAV) infection. We show that soluble respiratory proteins [collectins, surfactant proteins D (SP-D) and mannose binding lectin (MBL), H-ficolin and LL-37] inhibit replication of seasonal IAV in human monocytes. The collectins and H-ficolin also increased viral uptake by the cells, while LL-37 did not. H-ficolin was able to inhibit replication of the 2009 pandemic H1N1 strain (Cal09) in monocytes, but SP-D and LL-37 had significantly fewer inhibitory effects on this strain than on seasonal IAV. All of these proteins reduced IAV-induced TNF-α production, even in instances when viral replication was not reduced. We used modified recombinant versions of SP-D, MBL and ficolin to elucidate mechanisms through which these proteins alter monocyte interactions with IAV. We demonstrate the importance of the multimeric structure, and of binding properties of the lectin domain, in mediating antiviral and opsonic activity of the proteins. Hence, soluble inhibitors present in airway lining fluid may aid clearance of IAV by promoting monocyte uptake of the virus, while reducing viral replication and virus-induced TNF-α responses in these cells. However, SP-D and LL-37 have reduced ability to inhibit replication of pandemic IAV in monocytes.

Published

2017

3. Lung remodeling regions in long-term Covid-19 feature basal epithelial cell reprogramming

Author

Wu, Kangyun, Zhang, Yong, Austin, Stephen R., Declue, Huqing Yin, Byers, Derek E., Crouch, Erika C., and Holtzman, Michael J.

Abstract

Respiratory viruses, including SARS-CoV-2, can trigger chronic lung disease that persists and even progresses after expected clearance of infectious virus. To gain an understanding of this process, we examined a series of consecutive fatal cases of Covid-19 that came to autopsy at 27-51 d after hospital admission. In each patient, we identify a stereotyped bronchiolar-alveolar pattern of lung remodeling with basal epithelial cell hyperplasia, immune activation, and mucinous differentiation. Remodeling regions also feature macrophage infiltration and apoptosis and a marked depletion of alveolar type 1 and 2 epithelial cells. This entire pattern closely resembles findings from an experimental model of post-viral lung disease that requires basal-epithelial stem cell growth, immune activation, and differentiation. Together, the results provide evidence of basal epithelial cell reprogramming in long-term Covid-19 and thereby yield a pathway for explaining and correcting lung dysfunction in this type of disease.

Published

2023

4. Review: Structural determinants of pattern recognition by lung collectins

Author

Palaniyar, Nades, Seaton, Barbara A., Crouch, Erika C., McCormack, Francis X., Head, James F., Hartshorn, Kevan L., and Mendelsohn, Richard

Abstract

Host defense roles for the lung collectins, surfactant protein A (SP-A) and surfactant protein D (SP-D), were first suspected in the 1980s when molecular characterization revealed their sequence homology to the acute phase reactant of serum, mannose-binding lectin. Surfactant protein A and SP-D have since been shown to play diverse and important roles in innate immunity and pulmonary homeostasis. Their location in surfactant ideally positions them to interact with air-space pathogens. Despite extensive structural similarity, the two proteins show many functional differences and considerable divergence in their interactions with microbial surface components, surfactant lipids, and other ligands. Recent crystallographic studies have provided many new insights relating to these observed differences. Although both proteins can participate in calcium-dependent interactions with sugars and other polyols, they display significant differences in the spatial orientation, charge, and hydrophobicity of their binding surfaces. Surfactant protein D appears particularly adapted to interactions with complex carbohydrates and anionic phospholipids, such as phosphatidylinositol. By contrast, SP-A shows features consistent with its preference for lipid ligands, including lipid A and the major surfactant lipid, dipalmitoylphosphatidylcholine. Current research suggests that structural biology approaches will help to elucidate the molecular basis of pulmonary collectin—ligand recognition and facilitate development of new therapeutics based upon SP-A and SP-D.

Published

2010

5. Enhancement of Antiviral Activity of Collectin Trimers through Cross-Linking and Mutagenesis of the Carbohydrate Recognition Domain

Author

White, Mitchell R., Boland, Patrick, Tecle, Tesfaldet, Gantz, Donald, Sorenson, Grith, Tornoe, Ida, Holmskov, Uffe, McDonald, Barbara, Crouch, Erika C., and Hartshorn, Kevan L.

Abstract

AbstractSurfactant protein D (SP-D) plays important roles in innate defense against respiratory viruses [including influenza A viruses (IAVs)]. Truncated trimers composed of its neck and carbohydrate recognition domains (NCRDs) bind various ligands; however, they have minimal inhibitory activity for IAV. We have sought to find ways to increase the antiviral activity of collectin NCRDs. Cross-linking of the SP-D NCRD with nonblocking monoclonal antibodies (mAbs) markedly potentiates antiviral activity. In the present report, we demonstrate that F(ab’)2 [but not F(ab’)1] fragments of a cross-linking mAb have similar effects. Hence, cross-linking activity, but not the Fc domain of the mAb, is needed for increased antiviral activity. In contrast, the Fc domain of the mAb was important for increasing viral uptake or respiratory burst responses of human neutrophils. Our NCRD constructs contain an S protein binding site. Herein, we show that a multivalent S protein complex caused cross-linking and also increased the antiviral activity of NCRDs. NCRDs of conglutinin and CL43 had greater intrinsic antiviral activity than those of SP-D or mannose-binding lectin. Based on motifs found in these serum collectins, we have constructed mutant versions of the human SP-D NCRD that have increased antiviral activity. These mutant NCRDs also had potentiated activity after cross-linking with F(ab’)2 fragments or S protein complexes. Hence, the antiviral activity of NCRDs can be increased by 2 distinct, complementary strategies, namely cross-linking of NCRDs through various means and mutagenesis of CRD residues to increase viral binding. These findings may be relevant for antiviral therapy.Copyright © 2009 S. Karger AG, Basel

Published

2010

6. Patterns of neutrophil serine protease‐dependent cleavage of surfactant protein D in inflammatory lung disease

Author

Cooley, Jessica, McDonald, Barbara, Accurso, Frank J., Crouch, Erika C., and Remold‐O'Donnell, Eileen

Abstract

The manuscript presents definitive studies of surfactant protein D (SP‐D) in the context of inflammatory lung fluids. The extent of SP‐D depletion in bronchoalveolar lavage fluid (BALF) of children affected with cystic fibrosis (CF) is demonstrated to correlate best with the presence of the active neutrophil serine protease (NSP) elastase. Novel C‐terminal SP‐D fragments of 27 kDa and 11 kDa were identified in patient lavage fluid in addition to the previously described N‐terminal, 35‐kDa fragment by the use of isoelectrofocusing, modified blotting conditions, and region‐specific antibodies. SP‐D cleavage sites were identified. In vitro treatment of recombinant human SP‐D dodecamers with NSPs replicated the fragmentation, but unexpectedly, the pattern of SP‐D fragments generated by NSPs was dependent on calcium concentration. Whereas the 35‐ and 11‐kDa fragments were generated when incubations were performed in low calcium (200 μM CaCl2), incubations in physiological calcium (2 mM) with higher amounts of elastase or proteinase‐3 generated C‐terminal 27, 21, and 14 kDa fragments, representing cleavage within the collagen and neck regions. Studies in which recombinant SP‐D cleavage by individual NSPs was quantitatively evaluated under low and high calcium conditions showed that the most potent NSP for cleaving SP‐D is elastase, followed by proteinase‐3, followed by cathepsin G. These relative potency findings were considered in the context of other studies that showed that active NSPs in CF BALF are in the order: elastase, followed by cathepsin G, followed by proteinase‐3. The findings support a pre‐eminent role for neutrophil elastase as the critical protease responsible for SP‐D depletion in inflammatory lung disease.

Published

2008

7. Surfactant Protein D Increases Fusion of Mycobacterium tuberculosis- Containing Phagosomes with Lysosomes in Human Macrophages

Author

Ferguson, J. Scott, Martin, Jennifer L., Azad, Abul K., McCarthy, Travis R., Kang, Peter B., Voelker, Dennis R., Crouch, Erika C., and Schlesinger, Larry S.

Abstract

Lung surfactant protein D (SP-D) binds to Mycobacterium tuberculosis surface lipoarabinomannan and results in bacterial agglutination, reduced uptake, and inhibition of growth in human macrophages. Here we show that SP-D limits the intracellular growth of bacilli in macrophages by increasing phagosome-lysosome fusion but not by generating a respiratory burst.

Published

2006

8. Surfactant Protein D Increases Fusion of Mycobacterium tuberculosis- Containing Phagosomes with Lysosomes in Human Macrophages

Author

Ferguson, J. Scott, Martin, Jennifer L., Azad, Abul K., McCarthy, Travis R., Kang, Peter B., Voelker, Dennis R., Crouch, Erika C., and Schlesinger, Larry S.

Abstract

ABSTRACTLung surfactant protein D (SP-D) binds to Mycobacterium tuberculosissurface lipoarabinomannan and results in bacterial agglutination, reduced uptake, and inhibition of growth in human macrophages. Here we show that SP-D limits the intracellular growth of bacilli in macrophages by increasing phagosome-lysosome fusion but not by generating a respiratory burst.

Published

2006

9. Effect of Lung Surfactant Collectins on Bronchoalveolar Macrophage Interaction with Blastomyces dermatitidis: Inhibition of Tumor Necrosis Factor Alpha Production by Surfactant Protein D

Author

Lekkala, Madhavi, LeVine, Ann Marie, Linke, Michael J., Crouch, Erika C., Linders, Bruce, Brummer, Elmer, and Stevens, David A.

Abstract

ABSTRACTAlveolar surfactant modulates the antimicrobial function of bronchoalveolar macrophages (BAM). Little is known about the effect of surfactant-associated proteins in bronchoalveolar lavage fluid (BALF) on the interaction of BAM and Blastomyces dermatitidis. We investigated BALF enhancement or inhibition of TNF-α production by BAM stimulated by B. dermatitidis. BAM from CD-1 mice were stimulated with B. dermatitidiswithout or with normal BALF, surfactant protein A-deficient (SP-A−/−) or surfactant protein D-deficient (SP-D−/−) BALF, or a mixture of SP-A−/−and SP-D−/−BALF. An enzyme-linked immunosorbent assay was used to measure tumor necrosis factor alpha (TNF-α) in culture supernatants. BALFs were standardized in protein concentration. BAM plus B. dermatitidis(BAM-B. dermatitidis) TNF-α production was inhibited ≥47% by BALF or SP-A−/−BALF (at 290 or 580 μg of protein/ml, P< 0.05 to 0.01); in contrast, SP-D−/−BALF did not significantly inhibit TNF-α production. If SP-A−/−BALF was mixed in equal amounts with SP-D−/−BALF, TNF-α production by BAM-B. dermatitidiswas inhibited (P< 0.01). Finally, pure SP-D added to SP-D−/−BALF inhibited TNF-α production by BAM-B. dermatitidis(P< 0.01). B. dermatitidisincubated with BALF and washed, plus BAM, stimulated 63% less production of TNF-α than did unwashed B. dermatitidis(P< 0.05). SP-D was detected by anti-SP-D antibody on BALF-treated unwashed B. dermatitidisin an immunofluorescence assay (IFA). The BALF depleted by a coating of B. dermatitidislost the ability to inhibit TNF-α production (P< 0.05). 1,3-β-Glucan was a good stimulator of BAM for TNF-α production and was detected on B. dermatitidisby IFA. β-Glucan incubated with BALF inhibited the binding of SP-D in BALF to B. dermatitidisas demonstrated by IFA. Our data suggest that SP-D in BALF binds β-glucan on B. dermatitidis, blocking BAM access to β-glucan, thereby inhibiting TNF-α production. Thus, whereas BALF constituents commonly mediate antimicrobial activity, B. dermatitidismay utilize BALF constituents, such as SP-D, to blunt the host defensive reaction; this effect could reduce inflammation and tissue destruction but could also promote disease.

Published

2006

10. Effect of Lung Surfactant Collectins on Bronchoalveolar Macrophage Interaction with Blastomyces dermatitidis: Inhibition of Tumor Necrosis Factor Alpha Production by Surfactant Protein D

Author

Lekkala, Madhavi, LeVine, Ann Marie, Linke, Michael J., Crouch, Erika C., Linders, Bruce, Brummer, Elmer, and Stevens, David A.

Abstract

Alveolar surfactant modulates the antimicrobial function of bronchoalveolar macrophages (BAM). Little is known about the effect of surfactant-associated proteins in bronchoalveolar lavage fluid (BALF) on the interaction of BAM and Blastomyces dermatitidis. We investigated BALF enhancement or inhibition of TNF-α production by BAM stimulated by B. dermatitidis. BAM from CD-1 mice were stimulated with B. dermatitidis without or with normal BALF, surfactant protein A-deficient (SP-A–/–) or surfactant protein D-deficient (SP-D–/–) BALF, or a mixture of SP-A–/– and SP-D–/– BALF. An enzyme-linked immunosorbent assay was used to measure tumor necrosis factor alpha (TNF-α) in culture supernatants. BALFs were standardized in protein concentration. BAM plus B. dermatitidis (BAM-B. dermatitidis) TNF-α production was inhibited ≥47% by BALF or SP-A–/– BALF (at 290 or 580 µg of protein/ml, P < 0.05 to 0.01); in contrast, SP-D–/– BALF did not significantly inhibit TNF-α production. If SP-A–/– BALF was mixed in equal amounts with SP-D–/– BALF, TNF-α production by BAM-B. dermatitidis was inhibited (P < 0.01). Finally, pure SP-D added to SP-D–/– BALF inhibited TNF-α production by BAM-B. dermatitidis (P < 0.01). B. dermatitidis incubated with BALF and washed, plus BAM, stimulated 63% less production of TNF-α than did unwashed B. dermatitidis (P < 0.05). SP-D was detected by anti-SP-D antibody on BALF-treated unwashed B. dermatitidis in an immunofluorescence assay (IFA). The BALF depleted by a coating of B. dermatitidis lost the ability to inhibit TNF-α production (P < 0.05). 1,3-{szligbeta}-Glucan was a good stimulator of BAM for TNF-α production and was detected on B. dermatitidis by IFA. {szligbeta}-Glucan incubated with BALF inhibited the binding of SP-D in BALF to B. dermatitidis as demonstrated by IFA. Our data suggest that SP-D in BALF binds {szligbeta}-glucan on B. dermatitidis, blocking BAM access to {szligbeta}-glucan, thereby inhibiting TNF-α production. Thus, whereas BALF constituents commonly mediate antimicrobial activity, B. dermatitidis may utilize BALF constituents, such as SP-D, to blunt the host defensive reaction; this effect could reduce inflammation and tissue destruction but could also promote disease.

Published

2006

11. Mycobacterium tuberculosis Binding to Human Surfactant Proteins A and D, Fibronectin, and Small Airway Epithelial Cells under Shear Conditions

Author

Hall-Stoodley, Luanne, Watts, Gayle, Crowther, Joy E., Balagopal, Ashwin, Torrelles, Jordi B., Robison-Cox, James, Bargatze, Robert F., Harmsen, Allen G., Crouch, Erika C., and Schlesinger, Larry S.

Abstract

A crucial step in infection is the initial attachment of a pathogen to host cells or tissue. Mycobacterium tuberculosis has evolved multiple strategies for establishing an infection within the host. The pulmonary microenvironment contains a complex milieu of pattern recognition molecules of the innate immune system that play a role in the primary response to inhaled pathogens. Encounters of M. tuberculosis with these recognition molecules likely influence the outcome of the bacillus-host interaction. Here we use a novel fluid shear assay to investigate the binding of M. tuberculosis to innate immune molecules that are produced by pulmonary epithelial cells and are thought to play a role in the lung innate immune response. Virulent and attenuated M. tuberculosis strains bound best to immobilized human fibronectin (FN) and surfactant protein A (SP-A) under this condition. Binding under fluid shear conditions was more consistent and significant compared to binding under static conditions. Soluble FN significantly increased the adherence of both virulent and attenuated M. tuberculosis strains to human primary small airway epithelial cells (SAEC) under fluid shear conditions. In contrast, SP-A and SP-D effects on bacterial adherence to SAEC differed between the two strains. The use of a fluid shear model to simulate physiological conditions within the lung and select for high-affinity binding interactions should prove useful for studies that investigate interactions between M. tuberculosis and host innate immune determinants.

Published

2006

12. Mycobacterium tuberculosisBinding to Human Surfactant Proteins A and D, Fibronectin, and Small Airway Epithelial Cells under Shear Conditions

Author

Hall-Stoodley, Luanne, Watts, Gayle, Crowther, Joy E., Balagopal, Ashwin, Torrelles, Jordi B., Robison-Cox, James, Bargatze, Robert F., Harmsen, Allen G., Crouch, Erika C., and Schlesinger, Larry S.

Abstract

ABSTRACTA crucial step in infection is the initial attachment of a pathogen to host cells or tissue. Mycobacterium tuberculosishas evolved multiple strategies for establishing an infection within the host. The pulmonary microenvironment contains a complex milieu of pattern recognition molecules of the innate immune system that play a role in the primary response to inhaled pathogens. Encounters of M. tuberculosiswith these recognition molecules likely influence the outcome of the bacillus-host interaction. Here we use a novel fluid shear assay to investigate the binding of M. tuberculosisto innate immune molecules that are produced by pulmonary epithelial cells and are thought to play a role in the lung innate immune response. Virulent and attenuated M. tuberculosisstrains bound best to immobilized human fibronectin (FN) and surfactant protein A (SP-A) under this condition. Binding under fluid shear conditions was more consistent and significant compared to binding under static conditions. Soluble FN significantly increased the adherence of both virulent and attenuated M. tuberculosisstrains to human primary small airway epithelial cells (SAEC) under fluid shear conditions. In contrast, SP-A and SP-D effects on bacterial adherence to SAEC differed between the two strains. The use of a fluid shear model to simulate physiological conditions within the lung and select for high-affinity binding interactions should prove useful for studies that investigate interactions between M. tuberculosisand host innate immune determinants.

Published

2006

13. Enhanced Surfactant Protein and Defensin mRNA Levels and Reduced Viral Replication during Parainfluenza Virus Type 3 Pneumonia in Neonatal Lambs

Author

Grubor, Branka, Gallup, Jack M., Meyerholz, David K., Crouch, Erika C., Evans, Richard B., Brogden, Kim A., Lehmkuhl, Howard D., and Ackermann, Mark R.

Abstract

ABSTRACTDefensins and surfactant protein A (SP-A) and SP-D are antimicrobial components of the pulmonary innate immune system. The purpose of this study was to determine the extent to which parainfluenza type 3 virus infection in neonatal lambs alters expression of sheep beta-defensin 1 (SBD-1), SP-A, and SP-D, all of which are constitutively transcribed by respiratory epithelia. Parainfluenza type 3 viral antigen was detected by immunohistochemistry (IHC) in the bronchioles of all infected lambs 3 days postinoculation and at diminished levels 6 days postinoculation, but it was absent 17 days postinoculation. At all times postinoculation, lung homogenates from parainfluenza type 3 virus-inoculated animals had increased SBD-1, SP-A, and SP-D mRNA levels as detected by fluorogenic real-time reverse transcriptase PCR. Protein levels of SP-A in lung homogenates detected by quantitative-competitive enzyme-linked immunosorbent assay and protein antigen of SP-A detected by IHC were not altered. These studies demonstrate that parainfluenza type 3 virus infection results in enhanced expression of constitutively transcribed innate immune factors expressed by respiratory epithelia and that this increased expression occurs concurrently with decreased viral replication.

Published

2004

14. Surfactant protein D-mediated aggregation of Pneumocystis carinii impairs phagocytosis by alveolar macrophages.

Author

Yong, Suk-Joong, Vuk-Pavlovic, Zvezdana, Standing, Joseph E, Crouch, Erika C, and Limper, Andrew H

Abstract

Pneumocystis carinii remains an important and potentially fatal cause of opportunistic pneumonia. Animal studies reveal that substantial quantities of surfactant protein D (SP-D) accumulate in the airspaces during P. carinii pneumonia and are particularly abundant in aggregates of organisms. Due to the multimeric structure of SP-D, we hypothesized that SP-D mediates aggregation of the organism. From previous clinical studies it is known that aggregated organisms are conspicuous in sections of lung tissue and bronchoalveolar lavage (BAL) fluids of humans with active P. carinii pneumonia. Herein, we observe that SP-D levels increased at least fourfold in BAL fluids of patients with P. carinii pneumonia. Next, a spectrophotometric sedimentation assay was developed to assess the aggregation of P. carinii in vitro by SP-D. P. carinii organisms were first stripped with glutathione to remove bound SP-D and subsequently incubated in the presence of SP-D and 2 mM calcium. P. carinii incubated with natural SP-D (10 micro g/ml) containing dodecamers and higher-order forms exhibited aggregation and enhanced sedimentation compared to that of glutathione-stripped P. carinii. Aggregation was also enhanced by the concentrated supernatant of rat BAL fluid, and this effect was abolished by the selective removal of SP-D from the lavage fluid. P. carinii aggregation was reduced by maltose, mannose, and EDTA, consistent with the role of the SP-D C-type lectin domain (CRD) in the aggregation event. Comparisons of different molecular forms of SP-D showed that dodecamers-but not trimeric subunits-mediate optimal aggregation of P. carinii. Aggregation of P. carinii by SP-D was shown to be responsible for the impaired phagocytosis of the organisms by alveolar macrophages. Thus, SP-D-mediated aggregation of P. carinii may represent one means by which the organism avoids elimination by the host.

Published

2003

15. Surfactant Protein D-Mediated Aggregation of Pneumocystis cariniiImpairs Phagocytosis by Alveolar Macrophages

Author

Yong, Suk-Joong, Vuk-Pavlovic, Zvezdana, Standing, Joseph E., Crouch, Erika C., and Limper, Andrew H.

Abstract

ABSTRACTPneumocystis cariniiremains an important and potentially fatal cause of opportunistic pneumonia. Animal studies reveal that substantial quantities of surfactant protein D (SP-D) accumulate in the airspaces during P. cariniipneumonia and are particularly abundant in aggregates of organisms. Due to the multimeric structure of SP-D, we hypothesized that SP-D mediates aggregation of the organism. From previous clinical studies it is known that aggregated organisms are conspicuous in sections of lung tissue and bronchoalveolar lavage (BAL) fluids of humans with active P. cariniipneumonia. Herein, we observe that SP-D levels increased at least fourfold in BAL fluids of patients with P. cariniipneumonia. Next, a spectrophotometric sedimentation assay was developed to assess the aggregation of P. cariniiin vitro by SP-D. P. cariniiorganisms were first stripped with glutathione to remove bound SP-D and subsequently incubated in the presence of SP-D and 2 mM calcium. P. cariniiincubated with natural SP-D (10 μg/ml) containing dodecamers and higher-order forms exhibited aggregation and enhanced sedimentation compared to that of glutathione-stripped P. carinii. Aggregation was also enhanced by the concentrated supernatant of rat BAL fluid, and this effect was abolished by the selective removal of SP-D from the lavage fluid. P. cariniiaggregation was reduced by maltose, mannose, and EDTA, consistent with the role of the SP-D C-type lectin domain (CRD) in the aggregation event. Comparisons of different molecular forms of SP-D showed that dodecamers—but not trimeric subunits—mediate optimal aggregation of P. carinii. Aggregation of P. cariniiby SP-D was shown to be responsible for the impaired phagocytosis of the organisms by alveolar macrophages. Thus, SP-D-mediated aggregation of P. cariniimay represent one means by which the organism avoids elimination by the host.

Published

2003

16. Contributions of the N- and C-terminal domains of surfactant protein d to the binding, aggregation, and phagocytic uptake of bacteria.

Author

Hartshorn, Kevan L, White, Mitchell R, and Crouch, Erika C

Abstract

Collectins play important roles in host defense against infectious microorganisms. We now demonstrate that the serum collectins mannose-binding lectin (MBL) and conglutinin have less ability to bind to, aggregate, and enhance neutrophil uptake of several strains of gram-negative and gram-positive bacteria than pulmonary surfactant protein D (SP-D). Collectins are composed of four major structural domains (i.e., N-terminal, collagen, and neck and carbohydrate recognition domains). To determine which domains of SP-D are responsible for its greater bacterial binding or aggregating activity, activities of chimeric collectins containing the N-terminal and collagen domains of SP-D coupled to the neck recognition domains and carbohydrate recognition domains (CRD) of MBL or conglutinin (SP-D/Cong(neck+CRD) and SP-D/MBL(neck+CRD)) were tested. The SP-D/Cong(neck+CRD) and SP-D/MBL(neck+CRD) chimeras bound to and aggregated the bacteria more strongly than did wild-type MBL or conglutinin. SP-D/MBL(neck+CRD) also enhanced neutrophil uptake of bacteria more so than MBL. Hence, the SP-D N-terminal and/or collagen domains contribute to the enhanced bacterial binding and aggregating activities of SP-D. In prior studies, SP-D/Cong(neck+CRD) and SP-D/MBL(neck+CRD) had increased ability to bind to influenza virus compared not only with that of conglutinin or MBL but with that of wild-type SP-D as well. In contrast, the chimeras had either reduced or unchanged ability to bind to or aggregate bacteria compared to that of wild-type SP-D. Hence, although replacement of the neck recognition domains and CRDs of SP-D with those of MBL and conglutinin conferred increased viral binding activity, it did not favorably affect bacterial binding activity, suggesting that requirements for optimal collectin binding to influenza virus and bacteria differ.

Published

2002

17. Contributions of the N- and C-Terminal Domains of Surfactant Protein D to the Binding, Aggregation, and Phagocytic Uptake of Bacteria

Author

Hartshorn, Kevan L., White, Mitchell R., and Crouch, Erika C.

Abstract

ABSTRACTCollectins play important roles in host defense against infectious microorganisms. We now demonstrate that the serum collectins mannose-binding lectin (MBL) and conglutinin have less ability to bind to, aggregate, and enhance neutrophil uptake of several strains of gram-negative and gram-positive bacteria than pulmonary surfactant protein D (SP-D). Collectins are composed of four major structural domains (i.e., N-terminal, collagen, and neck and carbohydrate recognition domains). To determine which domains of SP-D are responsible for its greater bacterial binding or aggregating activity, activities of chimeric collectins containing the N-terminal and collagen domains of SP-D coupled to the neck recognition domains and carbohydrate recognition domains (CRD) of MBL or conglutinin (SP-D/Congneck+CRDand SP-D/MBLneck+CRD) were tested. The SP-D/Congneck+CRDand SP-D/MBLneck+CRDchimeras bound to and aggregated the bacteria more strongly than did wild-type MBL or conglutinin. SP-D/MBLneck+CRDalso enhanced neutrophil uptake of bacteria more so than MBL. Hence, the SP-D N-terminal and/or collagen domains contribute to the enhanced bacterial binding and aggregating activities of SP-D. In prior studies, SP-D/Congneck+CRDand SP-D/MBLneck+CRDhad increased ability to bind to influenza virus compared not only with that of conglutinin or MBL but with that of wild-type SP-D as well. In contrast, the chimeras had either reduced or unchanged ability to bind to or aggregate bacteria compared to that of wild-type SP-D. Hence, although replacement of the neck recognition domains and CRDs of SP-D with those of MBL and conglutinin conferred increased viral binding activity, it did not favorably affect bacterial binding activity, suggesting that requirements for optimal collectin binding to influenza virus and bacteria differ.

Published

2002

18. Trimerization of the amino propeptide of type IIA procollagen using a 14-amino acid sequence derived from the coiled-coil neck domain of surfactant protein D.

Author

McAlinden, Audrey, Crouch, Erika C, Bann, James G, Zhang, Pengnian, and Sandell, Linda J

Abstract

The folding of a collagen triple helix usually requires the presence of additional sequences that contribute to the association and correct alignment of the collagen chains. We recently reported that the C-terminal neck and lectin domains of a collagenous C-type lectin, rat pulmonary surfactant protein D (SP-D), are sufficient to drive the trimerization of a heterologous type IIA procollagen amino propeptide sequence. However, the conformation of the resulting trimeric IIA propeptide and the specific contributions of the SP-D sequence to trimerization were not elucidated. In the present study, we show that trimerization of the fusion protein is associated with correct folding of the collagen helix within the IIA propeptide domain (as assessed by circular dichroism) and that the constituent chains are hydroxylated. Chemical cross-linking and analytical ultracentrifugation showed that the IIA amino-propeptide retains its trimeric configuration even after proteolytic removal of the SP-D domains. By contrast, IIA amino-propeptides synthesized without fusion to the neck or lectin domains are assembled exclusively as monomers. To localize the trimerization sequence, mutant chimeric cDNA constructs were designed containing premature termination codons within the coiled-coil neck domain. A short, 14-amino acid sequence corresponding to the first two heptad repeats of the neck domain was sufficient to drive the trimeric association of the IIA amino-propeptide alpha-chains. However, deletion of the collagen domain resulted in the secretion of monomers. These studies demonstrate that two heptad repeats are sufficient for trimeric association of the propeptide but indicate that cooperative interactions between the coiled-coil and collagen domains are required for the formation of a stable helix.

Published

2002

19. Intramuscular Gene Transfer of Interleukin-10 Reduces Neutrophil Recruitment and Ameliorates Lung Graft Ischemia-Reperfusion Injuryxs

Author

Kozower, Benjamin D, Kanaan, Samer A, Tagawa, Tsutomu, Suda, Takashi, Grapperhaus, Kathleen, Daddi, Niccolo, Crouch, Erika C, Doerschuk, Claire M, and Patterson, G. Alexander

Abstract

Interleukin-10 (IL-10) has potent anti-inflammatory properties but its direct effects on neutrophil trafficking in lung transplant ischemia-reperfusion (I/R) injury are unknown. This study was performed to determine if recipient intramuscular IL-10 gene transfer reduces neutrophil infiltration in lung isografts and ameliorates I/R injury. Twenty-four hours before transplantation, recipient rodents received intramuscular injection with 1 × 1010plaque-forming units (pfu) adenovirus encoding human IL-10 (hIL-10), 1 × 1010pfu adenovirus control encoding β-galactosidase, or saline. Gene expression in muscle and plasma was confirmed. Lung grafts were harvested, stored at 4 °C for 18 h, and assessed 24 h after transplantation. Peak muscle and plasma expression of hIL-10 was achieved 24 h after gene transfer and returned to baseline by 7 days (p < 0.05 vs. controls). Gene transfer of hIL-10 reduced neutrophil sequestration and emigration in lung grafts as measured by morphometry and myeloperoxidase activity (p < 0.03 vs. controls). Furthermore, hIL-10 improved graft oxygenation and reduced lung edema (p < 0.01 vs. controls). Intramuscular gene transfer of hIL-10 releases hIL-10 protein into plasma and reduces neutrophil sequestration and emigration in lung isografts. This is associated with a reduction in I/R injury with improved isograft oxygenation and reduced tissue edema. Intramuscular gene transfer may be a useful strategy to reduce clinical I/R injury.

Published

2002

20. Distinctive anti-influenza properties of recombinant collectin 43

Author

HARTSHORN, Kevan L., HOLMSKOV, Uffe, HANSEN, Soren, ZHANG, Pengnian, MESCHI, Joseph, MOGUES, Tirsit, WHITE, Mitchell R., and CROUCH, Erika C.

Abstract

Collectins play important roles in innate defence against viral, fungal and bacterial pathogens. CL-43, a bovine serum collectin, which appears to have evolutionarily evolved from surfactant protein D (SP-D), shows unique structural and functional properties. In the present study, we describe the initial characterization of a recombinant CL-43 expressed in mammalian cells. Like natural CL-43, the recombinant is secreted as trimeric forms that show a preference for mannose and N-acetyl mannosamine. The natural and recombinant proteins have significantly higher haemagglutination-inhibiting activity against influenza A virus (IAV) than recombinant trimeric forms of SP-D. In contrast with the more highly multimerized forms of SP-D, namely conglutinin or mannose-binding lectin, CL-43 did not induce viral or bacterial aggregation and did not enhance IAV-induced neutrophil H2O2 generation. Like SP-D, CL-43 also strongly enhanced neutrophil uptake of IAV. However, the mechanism of this enhanced internalization is different from that of SP-D in that it did not require viral aggregation. These studies establish that the trimeric structure of CL-43 is specified by its primary sequence and indicate that this naturally occurring trimeric collectin has unique antiviral activities. These findings could facilitate the development of recombinant collectins with novel antimicrobial properties.

Published

2002

21. Complementation of Pulmonary Abnormalities in SP-D(−/−) Mice with an SP-D/Conglutinin Fusion Protein*

Author

Zhang, Liqian, Hartshorn, Kevan L., Crouch, Erika C., Ikegami, Machiko, and Whitsett, Jeffrey A.

Abstract

Surfactant protein D (SP-D) and serum conglutinin are closely related members of the collectin family of host defense lectins. Although normally synthesized at different anatomic sites, both proteins participate in the innate immune response to microbial challenge. To discern the roles of specific domains in the function of SP-D in vivo, a fusion protein (SP-D/Congneck+CRD) consisting of the NH2-terminal and collagenous domains of rat SP-D (rSP-D) and the neck and carbohydrate recognition domains (CRDs) of bovine conglutinin (Cong) was expressed in the respiratory epithelium of SP-D gene-targeted (SP-D(−/−)) mice. While SP-D/Congneck+CRDfusion protein did not affect lung morphology and surfactant phospholipid levels in the lungs of wild type mice, the chimeric protein substantially corrected the increased lung phospholipids in SP-D(−/−) mice. The SP-D/Congneck+CRDfusion protein also completely corrected defects in influenza A clearance and inhibited the exaggerated inflammatory response that occurs following viral infection. However, the chimeric protein did not ameliorate the ongoing lung inflammation, enhanced metalloproteinase expression, and alveolar destruction that characterize this model of SP-D deficiency. By contrast, a single arm mutant (RrSP-DSer15,20) partially restored antiviral activity but otherwise failed to rescue the deficient phenotype. Our findings directly implicate the CRDs of both SP-D and conglutinin in host defense in vivo. Our findings also strongly suggest that the molecular mechanisms underlying impaired pulmonary host defense and abnormal lipid metabolism are distinct from those that promote ongoing inflammation and the development of emphysema.

Published

2002

22. Induction of Macrophage Matrix Metalloproteinase Biosynthesis by Surfactant Protein D*

Author

Trask, Barbara Crippes, Malone, Mark J., Lum, Esther H., Welgus, Howard G., Crouch, Erika C., and Shapiro, Steven D.

Abstract

Recent studies strongly suggest that surfactant protein D (SP-D) plays important roles in pulmonary host defense and the regulation of immune and inflammatory reactions in the lung. Although SP-D can bind to alveolar macrophages and can elicit their chemotaxis, relatively little is known about the direct cellular consequences of SP-D on the function of these cells. Because matrix metalloproteinases (MMPs) are synthesized in increased amounts in response to various proinflammatory stimuli, we investigated the capacity of SP-D to modulate the production of MMPs by freshly isolated human alveolar macrophages. Unexpectedly we found that recombinant rat SP-D dodecamers selectively induce the biosynthesis of collagenase-1 (MMP-1), stromelysin (MMP-3), and macrophage elastase (MMP-12) without significantly increasing the production of tumor necrosis factor α and interleukin-1β. SP-D did not alter the production of these MMPs by fibroblasts. Phosphatidylinositol, a surfactant-associated ligand that interacts with the carboxyl-terminal neck and carbohydrate recognition domains of SP-D, inhibited the SP-D-dependent increase in MMP biosynthesis. A trimeric, recombinant protein consisting of only the neck and carbohydrate recognition domain did not augment metalloproteinase production, suggesting that the stimulatory effect on MMP production depends on an appropriate spatial presentation of trimeric lectin domains. Although SP-D dodecamers can selectively augment metalloproteinase activity in vitro, this effect may be competitively inhibited by tissue inhibitors of metalloproteinases or surfactant-associated ligands in vivo.

Published

2001

23. Activity of Pulmonary Surfactant Protein-D (SP-D) in VivoIs Dependent on Oligomeric Structure*

Author

Zhang, Liqian, Ikegami, Machiko, Crouch, Erika C., Korfhagen, Thomas R., and Whitsett, Jeffrey A.

Abstract

Pulmonary surfactant protein-D (SP-D) is a member of the collectin family of C-type lectins that is synthesized in many tissues including respiratory epithelial cells in the lung. SP-D is assembled predominantly as dodecamers consisting of four homotrimeric subunits each. Association of these subunits is stabilized by interchain disulfide bonds involving two conserved amino-terminal cysteine residues (Cys-15 and Cys-20). Mutant recombinant rat SP-D lacking these residues (RrSP-Dser15/20) is secreted in cell culture as trimeric subunits rather than as dodecamers. In this study, transgenic mice that express this mutant were generated to elucidate the functional importance of SP-D oligomerization in vivo. Expression of RrSP-Dser15/20 failed to correct the pulmonary phospholipid accumulation and emphysema characteristic of SP-D null (mSP-D−/−) mice. Expression of high concentrations of the mutant protein in wild-type mice reduced the abundance of disulfide cross-linked oligomers of endogenous SP-D in the bronchoalveolar lavage fluid and demonstrated a phenotype that partially overlapped with that of the SP-D−/− mice; the animals developed emphysema and foamy macrophages without the associated abnormalities in alveolar phospholipids typical of SP-D−/− mice. Development of foamy macrophages in SP-D-deficient mice is not secondary to the increased abundance of surfactant phospholipids. Disulfide cross-linked SP-D oligomers are required for the regulation of surfactant phospholipid homeostasis and the prevention of emphysema and foamy macrophagesin vivo.

Published

2001

24. Mechanism of binding of surfactant protein D to influenza A viruses: importance of binding to haemagglutinin to antiviral activity

Author

HARTSHORN, Kevan L., WHITE, Mitchell R., VOELKER, Dennis R., COBURN, John, ZANER, Ken, and CROUCH, Erika C.

Abstract

Collectins are important in the initial containment of a variety of pathogens, including influenza A virus (IAV). We provide the first systematic evaluation of the oligosaccharide-binding sites for pulmonary surfactant protein D (SP-D) on specific IAV coat glycoproteins and define the relationship between this binding and antiviral activity. With the use of several techniques, SP-D was found to bind via its carbohydrate-recognition domain (CRD) to mannosylated, N-linked carbohydrates on the HA1 domain of the haemagglutinin (HA) and on the neuraminidase of IAV. Using a set of IAV strains that differed in the level and site of glycosylation, and a panel of recombinant collectins, we found that binding of SP-D to the globular domain of the HA was critical in mediating the inhibition of viral haemagglutination activity and infectivity. We also demonstrated that the pattern of binding of a collectin to IAV glycoproteins can be modified by altering the monosaccharide-binding affinity of its CRD or by linking the CRD to a different N-terminal/collagen domain. These studies clarify the mechanisms of viral neutralization by collectins and might be useful in engineering collectins for enhanced antiviral activity.

Published

2000

25. Proximal Promoter of the Surfactant Protein D Gene

Author

He, Yanchun, Crouch, Erika C., Rust, Kevin, Spaite, Elyse, and Brody, Steven L.

Abstract

Surfactant protein D (SP-D) plays roles in pulmonary host defense and surfactant homeostasis and is increased following lung injury. Because AP-1 proteins regulate cellular responses to diverse environmental stimuli, we hypothesized that the conserved AP-1 motif (at −109) and flanking sequences in the human SP-D promoter contribute to the regulation of SP-D expression. The AP-1 sequence specifically bound to fra-1, junD, andjunBin H441 lung adenocarcinoma nuclear extracts. Mutagenesis of the AP-1 motif in a chloramphenicol acetyltransferase reporter construct containing 285 base pairs of upstream sequence nearly abolished promoter activity, and co-transfection of junDsignificantly increased wild type but not mutant promoter activity. The sequence immediately downstream of the AP-1 element contained a binding site for HNF-3 (FOXA), and simultaneous mutation of this site (fox-d) and an upstream FoxA binding site (−277,fox-u) caused a 4-fold reduction in chloramphenicol acetyltransferase activity. Immediately upstream of the AP-1-binding site, we identified a GT box-containing positive regulatory element. Despite finding regions of limited homology to the thyroid transcription factor 1-binding site, SP-D promoter activity did not require thyroid transcription factor 1. Thus, transcriptional regulation of SP-D gene expression involves complex interactions with ubiquitous and lineage-dependent factors consistent with more generalized roles in innate immunity.

Published

2000

26. Increased Susceptibility of Diabetic Mice to Influenza Virus Infection: Compromise of Collectin-Mediated Host Defense of the Lung by Glucose?

Author

Reading, Patrick C., Allison, Janette, Crouch, Erika C., and Anders, E. Margot

Abstract

ABSTRACTThe influence of diabetes on susceptibility to influenza virus infection was examined in a mouse model in which RIP-Kbtransgenic mice and their nontransgenic littermates were used as the diabetic and nondiabetic hosts, respectively. Influenza virus A/Phil/82 (H3N2) grew to significantly higher titers in the lungs of diabetic than nondiabetic mice. The extent of viral replication in the lungs was proportional to blood glucose levels in the mice at the time of infection, and the enhanced susceptibility of diabetic mice was reversed with insulin. Growth of A/HKx31 (H3N2) virus was also enhanced in diabetic mice, whereas the highly virulent strain A/PR/8/34 (H1N1) showed no difference in virus yields in diabetic and nondiabetic mice, even with low inocula. A/Phil/82 and A/HKx31 are sensitive to neutralization in vitro by the pulmonary collectin surfactant protein D (SP-D), whereas A/PR/8/34 is essentially resistant. Glucose is a ligand for SP-D, and neutralization of A/Phil/82 virus by SP-D was abolished in the presence of glucose at levels commonly found in diabetic mice. These findings suggest that in mice, and perhaps in humans, diabetes predisposes to influenza virus infection through compromise of collectin-mediated host defense of the lung by glucose.

Published

1998

27. Mechanisms of Interaction Between Lung Collectins and Influenza a Virus Hemagglutinin

Author

Rynkiewicz, Michael J., Luo, Dong, Leymarie, Nancy, Crouch, Erika C., Hartshorn, Kevan L., Head, James F., McCormack, Francis X., van Eijk, Martin, Zaia, Joseph, and Seaton, Barbara A.

Published

2011

28. Computational Analysis Reveals a Key Regulator of Cryptococcal Virulence and Determinant of Host Response

Author

Gish, Stacey R., Maier, Ezekiel J., Haynes, Brian C., Santiago-Tirado, Felipe H., Srikanta, Deepa L., Ma, Cynthia Z., Li, Lucy X., Williams, Matthew, Crouch, Erika C., Khader, Shabaana A., Brent, Michael R., and Doering, Tamara L.

Abstract

ABSTRACTCryptococcus neoformansis a ubiquitous, opportunistic fungal pathogen that kills over 600,000 people annually. Here, we report integrated computational and experimental investigations of the role and mechanisms of transcriptional regulation in cryptococcal infection. Major cryptococcal virulence traits include melanin production and the development of a large polysaccharide capsule upon host entry; shed capsule polysaccharides also impair host defenses. We found that both transcription and translation are required for capsule growth and that Usv101 is a master regulator of pathogenesis, regulating melanin production, capsule growth, and capsule shedding. It does this by directly regulating genes encoding glycoactive enzymes and genes encoding three other transcription factors that are essential for capsule growth: GAT201, RIM101, and SP1. Murine infection with cryptococci lacking Usv101 significantly alters the kinetics and pathogenesis of disease, with extended survival and, unexpectedly, death by pneumonia rather than meningitis. Our approaches and findings will inform studies of other pathogenic microbes.IMPORTANCECryptococcus neoformanscauses fatal meningitis in immunocompromised individuals, mainly HIV positive, killing over 600,000 each year. A unique feature of this yeast, which makes it particularly virulent, is its polysaccharide capsule; this structure impedes host efforts to combat infection. Capsule size and structure respond to environmental conditions, such as those encountered in an infected host. We have combined computational and experimental tools to elucidate capsule regulation, which we show primarily occurs at the transcriptional level. We also demonstrate that loss of a novel transcription factor alters virulence factor expression and host cell interactions, changing the lethal condition from meningitis to pneumonia with an exacerbated host response. We further demonstrate the relevant targets of regulation and kinetically map key regulatory and host interactions. Our work elucidates mechanisms of capsule regulation, provides methods and resources to the research community, and demonstrates an altered pathogenic outcome that resembles some human conditions.

Published

2016

29. Interaction of Lung Surfactant Protein A with Phosphatidylcholine Vesicles

Author

Cai, Jingfei, Crouch, Erika C., Seaton, Barbara A., and Roberts, Mary F.

Published

2009