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102. A small key unlocks a heavy door: The essential function of the small hydrophobic proteins SP-B and SP-C to trigger adsorption of pulmonary surfactant lamellar bodies.

Author

Hobi, Nina, Giolai, Michael, Olmeda, Bárbara, Miklavc, Pika, Felder, Edward, Walther, Paul, Dietl, Paul, Frick, Manfred, Pérez-Gil, Jesus, and Haller, Thomas

Subjects
*PULMONARY surfactant, *HYDROPHOBIC surfaces, *ADSORPTION (Chemistry), *MOLECULAR biology, *IMMUNOGLOBULINS, *SURFACE forces
Abstract

The molecular basis involving adsorption of pulmonary surfactant at the respiratory air–liquid interface and the specific roles of the surfactant proteins SP-B and SP-C in this process have not been completely resolved. The reasons might be found in the largely unknown structural assembly in which surfactant lipids and proteins are released from alveolar type II cells, and the difficulties to sample, manipulate and visualize the adsorption of these micron-sized particles at an air–liquid interface under appropriate physiological conditions. Here, we introduce several approaches to overcome these problems. First, by immunofluorescence we could demonstrate the presence of SP-B and SP-C on the surface of exocytosed surfactant particles. Second, by sampling the released particles and probing their adsorptive capacity we could demonstrate a remarkably high rate of interfacial adsorption, whose rate and extent was dramatically affected by treatment with antibodies against SP-B and SP-C. The effect of both antibodies was additive and specific. Third, direct microscopy of an inverted air–liquid interface revealed that the blocking effect is due to a stabilization of the released particles when contacting the air–liquid interface, precluding their transformation and the formation of surface films. We conclude that SP-B and SP-C are acting as essential, preformed molecular keys in the initial stages of surfactant unpacking and surface film formation. We further propose that surfactant activation might be transduced by a conformational change of the surfactant proteins upon contact with surface forces acting on the air–liquid interface. [ABSTRACT FROM AUTHOR]

Published
2016
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107. Expression and regulation of 1-acyl-sn-glycerol- 3-phosphate acyltransferases in the epidermis

Author

Biao Lu, Yan J. Jiang, Mao Q. Man, Barbara Brown, Peter M. Elias, and Kenneth R. Feingold

Subjects
lamellar body, phospholipids, epidermal permeability barrier, Biochemistry, QD415-436
Abstract

Phospholipids are a major class of lipids in epidermis, where they serve as a source of free fatty acids that are important for the maintenance of epidermal permeability barrier function. The phospholipid biosynthetic enzyme, 1-acyl-sn-glycerol-3-phosphate acyltransferase (AGPAT), catalyzes the acylation of lysophosphatidic acid to form phosphatidic acid, the major precursor of all glycerolipids. We identified an expression pattern of AGPAT isoforms that is unique to epidermis, with relatively high constitutive expression of mouse AGPAT (mAGPAT) 3, 4, and 5 but low constitutive expression of mAGPAT 1 and 2. Localization studies indicate that all five isoforms of AGPAT were expressed in all nucleated layers of epidermis. Furthermore, rat AGPAT 2 and 5 mRNAs increased in parallel with both an increase in enzyme activity and permeability barrier formation late in rat epidermal development. Moreover, after two methods of acute permeability barrier disruption, mAGPAT 1, 2, and 3 mRNA levels increased rapidly and were sustained for at least 24 h. In parallel with the increase in mRNA levels, an increase in AGPAT activity also occurred.Because upregulation of mAGPAT mRNAs after tape-stripping could be partially reversed by artificial barrier restoration by occlusion, these studies suggest that an increase in the expression of AGPATs is linked to barrier requirements.

Published
2005
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117. InVitro Disease Modeling of Hermansky-Pudlak Syndrome Type 2Using Human Induced Pluripotent Stem Cell-Derived Alveolar Organoids

Author

Hiroshi Date, Tadao Nagasaki, Satoshi Konishi, Hisako Matsumoto, Yuki Yamamoto, Isao Ito, Naoyuki Sone, Toyohiro Hirai, Masatoshi Hagiwara, Isao Asaka, Michiaki Mishima, Satoshi Ikeo, Toyofumi F. Chen-Yoshikawa, Koji Tamai, Yohei Korogi, Shimpei Gotoh, and Akitsu Hotta

Subjects
Lung Diseases, 0301 basic medicine, Pathology, Lamellar granule, iPSC, Hermansky-Pudlak syndrome, HPS, lamellar body, alveolar type 2 cell, pulmonary surfactant, pluripotent stem cell, pulmonary fibrosis, alveolar organoid, MX35, Biochemistry, 0302 clinical medicine, Induced pluripotent stem cell, lcsh:QH301-705.5, Lung, MX35, lcsh:R5-920, iPSC, respiratory system, Organoids, medicine.anatomical_structure, alveolar organoid, Hermanski-Pudlak Syndrome, lcsh:Medicine (General), hormones, hormone substitutes, and hormone antagonists, medicine.medical_specialty, endocrine system, pulmonary surfactant, HPS, Induced Pluripotent Stem Cells, Biology, Cell Line, 03 medical and health sciences, Live cell imaging, Report, Genetics, medicine, Organoid, Humans, lamellar body, pluripotent stem cell, Secretion, Organelles, pulmonary fibrosis, alveolar type 2 cell, Hermansky-Pudlak syndrome, Correction, Cell Biology, medicine.disease, In vitro, 030104 developmental biology, lcsh:Biology (General), Alveolar Epithelial Cells, Hermansky–Pudlak syndrome, 030217 neurology & neurosurgery, Developmental Biology
Abstract

Summary It has been challenging to generate in vitro models of alveolar lung diseases, as the stable culture of alveolar type 2 (AT2) cells has been difficult. Methods of generating and expanding AT2 cells derived from induced pluripotent stem cells (iPSCs) have been established and are expected to be applicable to disease modeling. Hermansky-Pudlak syndrome (HPS) is an autosomal recessive disorder characterized by dysfunction of lysosome-related organelles, such as lamellar bodies (LBs), in AT2 cells. From an HPS type 2 (HPS2) patient, we established disease-specific iPSCs (HPS2-iPSCs) and their gene-corrected counterparts. By live cell imaging, the LB dynamics were visualized and altered distribution, enlargement, and impaired secretion of LBs were demonstrated in HPS2-iPSC-derived AT2 cells. These findings provide insight into the AT2 dysfunction in HPS patients and support the potential use of human iPSC-derived AT2 cells for future research on alveolar lung diseases., Graphical Abstract, Highlights • HPS2-iPSCs and cHPS2-iPSCs were generated from HPS2 patient fibroblasts • Anti-NaPi2b antibody was useful for isolating AT2 cells from human lung and AOs • The enlargement and abnormal distribution of LBs were observed in HPS2-AOs • Impaired surfactant secretion was demonstrated in HPS2-AOs, Pulmonary surfactant secretion by alveolar type 2 (AT2) cells is crucial for alveolar homeostasis. Gotoh and colleagues generated Hermansky-Pudlak syndrome type 2 (HPS2) patient-derived iPSCs and their gene-corrected counterparts and differentiated them into alveolar organoids (AOs). In HPS2-AOs, aberrant lamellar bodies and impaired surfactant secretion were demonstrated. Human iPSC-derived AOs might be useful for investigating alveolar lung diseases.

Published
2019

118. An inducible tricolor reporter mouse for simultaneous imaging of lysosomes, mitochondria and microtubules.

Author

Hutchison V, Lynch A, Gamez AMG, and Chen J

Abstract

Cell-type-specific use of the same DNA blueprint generates diverse cell types. Such diversity must also be executed via differential deployment of the same subcellular machinery. However, our understanding of the size, distribution, and dynamics of subcellular machinery in native tissues, and their connection to cellular diversity, remain limited. We generate and characterize an inducible tricolor reporter mouse, dubbed "kaleidoscope", for simultaneous imaging of lysosomes, mitochondria and microtubules in any cell type and at a single cell resolution. The expected subcellular compartments are labeled in culture and in tissues with no impact on cellular and organismal viability. Quantitative and live imaging of the tricolor reporter captures cell-type-specific organelle features and kinetics in the lung, as well as their changes after Sendai virus infection. Yap/Taz mutant lung epithelial cells undergo accelerated lamellar body maturation, a subcellular manifestation of their molecular defects. A comprehensive toolbox of reporters for all subcellular structures is expected to transform our understanding of cell biology in tissues., Competing Interests: COMPETING INTERESTS The authors declare no competing interests.

Published
2023
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119. Risk assessment for neonatal RDS/TTN using gestational age and the amniotic lamellar body count in twin pregnancies.

Author

Tsuda, Hiroyuki, Hirakawa, Akihiro, Kotani, Tomomi, Sumigama, Seiji, Mano, Yukio, Nakano, Tomoko, Imai, Kenji, Kawabata, Ichiro, Takahashi, Yuichiro, Iwagaki, Shigenori, and Kikkawa, Fumitaka

Subjects
*GESTATIONAL age, *EMBRYOLOGY, *DURATION of pregnancy, *NEWBORN infants, *CESAREAN section
Abstract

Background The amniotic lamellar body count (LBC) is useful for predicting respiratory distress syndrome (RDS) and transient tachypnea of the newborn (TTN) in twin pregnancies. However, the risk of neonatal respiratory complications varies with gestational age (GA). We herein created a model to predict the risk for RDS and TTN using GA and the LBC in twin pregnancies. Methods Six hundred thirty-two amniotic fluid samples, comprising 169 dichorionic twin (DCT) and 147 monochorionic twin (MCT) gestations, were obtained at Cesarean section. The samples were analyzed immediately without centrifugation. A logistic regression model including the LBC and GA was used to develop the prediction model for RDS/TTN. Results There were 101 neonates (16.0%) with RDS/TTN. The GA and LBC were significant independent factors affecting RDS/TTN. According to the logistic regression model, we determined the probability of RDS/TTN given the values of GA and the LBC. The overall diagnostic accuracy for predicting neonatal RDS/TTN using GA and the LBC was higher than the use of the LBC alone. Conclusions GA-specific LBC cutoffs for the risk assessment of neonatal RDS/TTN have been considered to be more accurate in twin pregnancies. Our findings provide valuable, new information for the management of twin pregnancies. [ABSTRACT FROM AUTHOR]

Published
2015
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120. Amniotic fluid lamellar body count as a novel biochemical marker for timing elective caesarean delivery.

Author

Kart, C., Guven, S., Guvendag Guven, E. S., Armangil, D., and Mentese, A.

Subjects
*ELECTIVE surgery, *PULMONARY surfactant, *AMNIOTIC liquid, *CESAREAN section, *EPIDEMIOLOGICAL research
Abstract

The aim of this study is to evaluate the performance of amniotic fluid lamellar body count (LBC) on the timing of elective caesarean delivery (CS) at ≥ 39 weeks. After allocating the study group (group I, transient tachypnoea of newborn (TTN), n = 14), an age-matched control group (group II, no TTN, n = 79) was selected for amniotic fluid LBC analysis. The median amniotic fluid LBC levels in group I were significantly lower than in the control group. Furthermore, the median values of mean lamellar body volume, median lamellar body distribution width and lamellar bodycrit in group I were also significantly lower than in group II. The best amniotic fluid LBC value to predict TTN was 40.15 × 10(3)/μl, with 82.3% sensitivity and 64.3% specificity. The favourable sensitivity and specificity values to predict the TTN for amniotic fluid LBC may suggest using it as an elective caesarean delivery-time scheduling marker. [ABSTRACT FROM AUTHOR]

Published
2015
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121. Actin depolymerisation and crosslinking join forces with myosin II to contract actin coats on fused secretory vesicles.

Author

Miklavc, Pika, Ehinger, Konstantin, Sultan, Ayesha, Felder, Tatiana, Paul, Patrick, Gottschalk, Kay-Eberhard, and Frick, Manfred

Subjects
*SECRETORY granules, *ACTIN, *DEPOLYMERIZATION, *MYOSIN, *MOLECULAR biology
Abstract

In many secretory cells actin and myosin are specifically recruited to the surface of secretory granules following their fusion with the plasma membrane. Actomyosin-dependent compression of fused granules is essential to promote active extrusion of cargo. However, little is known about molecular mechanisms regulating actin coat formation and contraction. Here, we provide a detailed kinetic analysis of the molecules regulating actin coat contraction on fused lamellar bodies in primary alveolar type II cells. We demonstrate that ROCK1 and myosin light chain kinase 1 (MLCK1, also known as MYLK) translocate to fused lamellar bodies and activate myosin II on actin coats. However, myosin II activity is not sufficient for efficient actin coat contraction. In addition, cofilin-1 and α-actinin translocate to actin coats. ROCK1-dependent regulated actin depolymerisation by cofilin-1 in cooperation with actin crosslinking by α-actinin is essential for complete coat contraction. In summary, our data suggest a complementary role for regulated actin depolymerisation and crosslinking, and myosin II activity, to contract actin coats and drive secretion. [ABSTRACT FROM AUTHOR]

Published
2015
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124. A new role for P2X4 receptors as modulators of lung surfactant secretion

Author

Pika eMiklavc, Kristin Elisabeth Thompson, and Manfred eFrick

Subjects
Calcium, Exocytosis, pulmonary surfactant, P2X4 receptor, lamellar body, alveolar epithelial cell, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

In recent years P2X receptors have attracted increasing attention as regulators of exocytosis and cellular secretion. In various cell types P2X receptors have been found to stimulate vesicle exocytosis directly via Ca2+ influx and elevation of the intracellular Ca2+ concentration. Recently, a new role for P2X4 receptors as regulators of secretion emerged. Exocytosis of lamellar bodies (LBs), large storage organelles for lung surfactant, results in a local, fusion-activated Ca2+ entry (FACE) in alveolar type II epithelial cells. FACE is mediated via P2X4 receptors that are located on the limiting membrane of LBs and inserted into the plasma membrane upon exocytosis of LBs. The localized Ca2+ influx at the site of vesicle fusion promotes fusion pore expansion and facilitates surfactant release. In addition, this inward-rectifying cation current across P2X4 receptors mediates fluid resorption from lung alveoli. It is hypothesized that the concomitant reduction in the alveolar lining fluid facilitates insertion of surfactant into the air-liquid interphase thereby activating it. These findings constitute a novel role for P2X4 receptors in regulating vesicle content secretion as modulators of the secretory output during the exocytic post-fusion phase.

Published
2013
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125. Amniotic lamellar body count: predicting and distinguishing neonatal respiratory complications in twin pregnancies.

Author

Tsuda, Hiroyuki, Kotani, Tomomi, Sumigama, Seiji, Mano, Yukio, Kawabata, Ichiro, Takahashi, Yuichiro, Iwagaki, Shigenori, Hirakawa, Akihiro, and Kikkawa, Fumitaka

Subjects
*AMNIOTIC liquid, *RESPIRATORY distress syndrome, *DISEASE complications, *PREMATURE labor, *TWINS, *CENTRIFUGATION
Abstract

Background Twin pregnancies have a higher rate of preterm births, making precise prediction of neonatal respiratory disorders essential. We herein examined the amniotic lamellar body count (LBC) and found it to be an accurate predictor of respiratory disorders in twin pregnancies. Methods Five hundred fourteen amniotic fluid samples, comprising 132 dichorionic twin (DCT) and 125 monochorionic twin (MCT) gestations, were obtained at cesarean section performed at 29 to 38 gestational weeks. Samples were analyzed immediately without centrifugation. Results There were 26 neonates (5.1%) with respiratory distress syndrome (RDS) and 43 (8.4%) with transient tachypnea of the newborn (TTN). The LBC in neonates with TTN (5.12 × 10 4 /μl) was between the counts in RDS (1.26 × 10 4 /μl) and controls (10.6 × 10 4 /μl), which differed significantly. Twin concordance rates were significantly higher for TTN in MCT gestations than DCT gestations ( p = 0.003) and delta LBC value was significantly smaller in MCT (3.15 ± 0.4 × 10 4 /μl) than DCT (5.17 ± 0.5 × 10 4 /μl) gestations ( p = 0.003). Conclusions The amniotic LBC is useful for predicting respiratory disorders, including RDS and TTN, in twin pregnancies. The data in this study may indicate a genetic predisposition to TTN among MCTs. [ABSTRACT FROM AUTHOR]

Published
2015
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126. Synaptotagmin-7 links fusion-activated Ca2+ entry and fusion pore dilation.

Author

Neuland, Kathrin, Sharma, Neeti, and Frick, Manfred

Subjects
*SYNAPTOTAGMINS, *CELL fusion, *CALCIUM channels, *SECRETION, *EXOCYTOSIS
Abstract

Ca2+-dependent regulation of fusion pore dilation and closure is a key mechanism determining the output of cellular secretion. We have recently described 'fusion-activated' Ca2+ entry (FACE) following exocytosis of lamellar bodies in alveolar type II cells. FACE regulates fusion pore expansion and facilitates secretion. However, the mechanisms linking this locally restricted Ca2+ signal and fusion pore expansion were still elusive. Here, we demonstrate that synaptotagmin-7 (Syt7) is expressed on lamellar bodies and links FACE and fusion pore dilation. We directly assessed dynamic changes in fusion pore diameters by analysing diffusion of fluorophores across fusion pores. Expressing wild-type Syt7 or a mutant Syt7 with impaired Ca2+-binding to the C2 domains revealed that binding of Ca2+ to the C2A domain facilitates FACE-induced pore dilation, probably by inhibiting translocation of complexin-2 to fused vesicles. However, the C2A domain hampered Ca2+- dependent exocytosis of lamellar bodies. These findings support the hypothesis that Syt7 modulates fusion pore expansion in large secretory organelles and extend our picture that lamellar bodies contain the necessary molecular inventory to facilitate secretion during the exocytic post-fusion phase. Moreover, regulating Syt7 levels on lamellar bodies appears to be essential in order that exocytosis is not impeded during the pre-fusion phase. [ABSTRACT FROM AUTHOR]

Published
2014
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127. Causes of epidermal filaggrin reduction and their role in the pathogenesis of atopic dermatitis.

Author

Thyssen, Jacob P. and Kezic, Sanja

Abstract

The epidermis protects human subjects from exogenous stressors and helps to maintain internal fluid and electrolyte homeostasis. Filaggrin is a crucial epidermal protein that is important for the formation of the corneocyte, as well as the generation of its intracellular metabolites, which contribute to stratum corneum hydration and pH. The levels of filaggrin and its degradation products are influenced not only by the filaggrin genotype but also by inflammation and exogenous stressors. Pertinently, filaggrin deficiency is observed in patients with atopic dermatitis regardless of filaggrin mutation status, suggesting that the absence of filaggrin is a key factor in the pathogenesis of this skin condition. In this article we review the various causes of low filaggrin levels, centralizing the functional and morphologic role of a deficiency in filaggrin, its metabolites, or both in the etiopathogenesis of atopic dermatitis. [ABSTRACT FROM AUTHOR]

Published
2014
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128. Fatty aldehyde and fatty alcohol metabolism: Review and importance for epidermal structure and function.

Author

Rizzo, William B.

Subjects
*FATTY alcohols, *ALCOHOL metabolism, *EPIDERMIS, *SPHINGOLIPIDS, *GLYCEROLIPIDS, *ISOPENTENOIDS, *PHYSIOLOGY
Abstract

Abstract: Normal fatty aldehyde and alcohol metabolism is essential for epidermal differentiation and function. Long-chain aldehydes are produced by catabolism of several lipids including fatty alcohols, sphingolipids, ether glycerolipids, isoprenoid alcohols and certain aliphatic lipids that undergo α- or ω-oxidation. The fatty aldehyde generated by these pathways is chiefly metabolized to fatty acid by fatty aldehyde dehydrogenase (FALDH, alternately known as ALDH3A2), which also functions to oxidize fatty alcohols as a component of the fatty alcohol:NAD oxidoreductase (FAO) enzyme complex. Genetic deficiency of FALDH/FAO in patients with Sjögren–Larsson syndrome (SLS) results in accumulation of fatty aldehydes, fatty alcohols and related lipids (ether glycerolipids, wax esters) in cultured keratinocytes. These biochemical changes are associated with abnormalities in formation of lamellar bodies in the stratum granulosum and impaired delivery of their precursor membranes to the stratum corneum (SC). The defective extracellular SC membranes are responsible for a leaky epidermal water barrier and ichthyosis. Although lamellar bodies appear to be the pathogenic target for abnormal fatty aldehyde/alcohol metabolism in SLS, the precise biochemical mechanisms are yet to be elucidated. Nevertheless, studies in SLS highlight the critical importance of FALDH and normal fatty aldehyde/alcohol metabolism for epidermal function. This article is part of a Special Issue entitled The Important Role of Lipids in the Epidermis and their Role in the Formation and Maintenance of the Cutaneous Barrier. Guest Editors: Kenneth R. Feingold and Peter Elias. [Copyright &y& Elsevier]

Published
2014
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129. Role of lipids in the formation and maintenance of the cutaneous permeability barrier.

Author

Feingold, Kenneth R. and Elias, Peter M.

Subjects
*SKIN permeability, *SKIN physiology, *EXTRACELLULAR space, *BILAYER lipid membranes, *CERAMIDES, *CHOLESTEROL
Abstract

Abstract: The major function of the skin is to form a barrier between the internal milieu and the hostile external environment. A permeability barrier that prevents the loss of water and electrolytes is essential for life on land. The permeability barrier is mediated primarily by lipid enriched lamellar membranes that are localized to the extracellular spaces of the stratum corneum. These lipid enriched membranes have a unique structure and contain approximately 50% ceramides, 25% cholesterol, and 15% free fatty acids with very little phospholipid. Lamellar bodies, which are formed during the differentiation of keratinocytes, play a key role in delivering the lipids from the stratum granulosum cells into the extracellular spaces of the stratum corneum. Lamellar bodies contain predominantly glucosylceramides, phospholipids, and cholesterol and following the exocytosis of lamellar lipids into the extracellular space of the stratum corneum these precursor lipids are converted by beta glucocerebrosidase and phospholipases into the ceramides and fatty acids, which comprise the lamellar membranes. The lipids required for lamellar body formation are derived from de novo synthesis by keratinocytes and from extra-cutaneous sources. The lipid synthetic pathways and the regulation of these pathways are described in this review. In addition, the pathways for the uptake of extra-cutaneous lipids into keratinocytes are discussed. This article is part of a Special Issue entitled The Important Role of Lipids in the Epidermis and their Role in the Formation and Maintenance of the Cutaneous Barrier. Guest Editors: Kenneth R. Feingold and Peter Elias. [Copyright &y& Elsevier]

Published
2014
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131. The outer frontier: the importance of lipid metabolism in the skin

Author

Kenneth R. Feingold

Subjects
permeability barrier, infection, stratum corneum, lamellar body, cholesterol, fatty acid, Biochemistry, QD415-436
Abstract

The skin serves the vital function of providing a barrier between the hostile external environment and the host. While the skin has many important barrier functions, the two that are absolutely essential for survival are the barrier to the movement of water and electrolytes (permeability barrier) and the barrier against invasive and toxic microorganisms (antimicrobial barrier). Lipids play an essential role in the formation and maintenance of both the permeability and antimicrobial barriers. A hydrophobic extracellular lipid matrix in the stratum corneum composed primarily of ceramides, cholesterol, and free fatty acids provides the barrier to the movement of water and electrolytes. A variety of lipids, such as fatty alcohols, monoglycerides, sphingolipids, phospholipids, and in particular free fatty acids, have antimicrobial activity and contribute to the antimicrobial barrier. In addition to these essential functions, we will also review the ability of skin surface cholesterol to reflect alterations in systemic lipid metabolism and the risk of atherosclerosis.

Published
2009
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132. No air without autophagy: autophagy is important for lung and swim bladder inflation.

Author

Morishita, Hideaki, Kanda, Yuki, and Mizushima, Noboru

Subjects
AUTOPHAGY, AIR bladders in fishes, PHOSPHOLIPIDS, LYSOSOMES, EPITHELIAL cells
Abstract

Macroautophagy is a catabolic process critical for the degradation of intracellular material, but its physiological functions in vertebrates are not fully understood. Here, we discuss our recent finding that macroautophagy plays a role in lamellar body maturation. The lamellar body is a lysosome-related organelle and stores phospholipid-containing surfactant complexes that reduce the surface tension of the air–water interface in order to inflate the airspace in lungs and swim bladders. In the epithelial cells of these organs, autophagosomes fuse with immature lamellar bodies to increase their size and lipid contents. This function is essential for respiration after birth in mice and for maintaining buoyancy in zebrafish. These findings unveil a novel function of macroautophagy in the maturation of surfactant-containing lamellar bodies. [ABSTRACT FROM AUTHOR]

Published
2021
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133. Effect of placenta previa on neonatal respiratory disorders and amniotic lamellar body counts at 36–38weeks of gestation.

Author

Tsuda, Hiroyuki, Kotani, Tomomi, Sumigama, Seiji, Mano, Yukio, Hua, Li, Hayakawa, Hiromi, Hayakawa, Masahiro, Sato, Yoshiaki, and Kikkawa, Fumitaka

Subjects
*RESPIRATORY distress syndrome, *NEONATAL diseases, *CESAREAN section, *DELIVERY (Obstetrics), *PREGNANCY complications, *AMNIOTIC liquid
Abstract

Abstract: Background: Pregnancies with placenta previa are significantly associated with preterm delivery and cesarean section. Therefore particular attention should be paid to the incidence of neonatal respiratory disorders in pregnancies with placenta previa. Aims: The purpose of this study is to examine the relationship between placenta previa and neonatal respiratory disorders, including respiratory distress syndrome (RDS) and transient tachypnea of the newborn (TTN), and to evaluate the impact of placenta previa on the amniotic lamellar body count (LBC) values. Methods: We analyzed the data from 186 registered elective cesarean cases without fetal or maternal complications at 36–38weeks of gestation. Amniotic fluid samples were analyzed immediately without centrifugation, and the LBC was measured using a platelet channel on the Sysmex XE-2100. Results: RDS was present in four neonates (2.2%) and TTN in 12 neonates (6.5%). The rate of TTN was significantly higher and the LBC values were significantly lower in the placenta previa group than in the control group (P=0.002 and P=0.024). The adjusted odds ratio for neonatal TTN was 7.20 (95% confidence interval: 6.58–7.88) among females with placenta previa. In placenta previa, warning bleeding was a significant factor protecting against neonatal respiratory disorders (P=0.046). Conclusions: Placenta previa in itself is a risk factor for neonatal TTN. When an elective cesarean section is performed in cases with uncomplicated placenta previa, special care should be taken to monitor for neonatal TTN even at 36–38weeks of gestation. [Copyright &y& Elsevier]

Published
2014
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134. Loss of Phototaxis and Degeneration of an Eyespot in Long-term Algal Cultures: Evidence from Ultrastructure and Behaviour in the Dinoflagellate Kryptoperidinium foliaceum.

Author

Moldrup, Morten, Moestrup, Øjvind, and Hansen, Per Juel

Subjects
*PHOTOTAXIS, *EYESPOT (Plant disease), *PHYTOPLANKTON, *ALGAE culture, *DINOFLAGELLATES
Abstract

Phototaxis provides phytoplankton with the means to orient themselves in a light gradient. This is accomplished using an eyespot and associated organelles. For the dinoflagellate Kryptoperidinium foliaceum, which has been described as having one of the most elaborate eyespot complexes known, positive phototaxis has hitherto not been reported. In this study, we show that a newly isolated strain of K. foliaceum is indeed capable of positive phototaxis with a mean vector (± 95% confidence interval) of 352°± 2.2, where 0/360° indicates the position of the light source. A study of three strains ( UTEX 1688, CCMP 1326, and MBL07) of K. foliaceum showed that the eyespot in two of these strains has degenerated following decades in culture. Thus, previous studies have failed to report positive phototaxis due to loss of directionality caused by the degenerated eyespot. The results are discussed in a broader context and we conclude that studies on algal morphology and physiology may result in erroneous conclusions if based on algal cultures maintained under laboratory conditions for extended periods. [ABSTRACT FROM AUTHOR]

Published
2013
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135. Fusion-activated cation entry (FACE) via P2X4 couples surfactant secretion and alveolar fluid transport.

Author

Thompson, Kristin E., Korbmacher, Jonas P., Hecht, Elena, Hobi, Nina, Wittekindt, Oliver H., Dietl, Paul, Kranz, Christine, and Frick, Manfred

Subjects
*PHYSIOLOGICAL effects of surface active agents, *PULMONARY alveoli, *EXOCYTOSIS, *LUNG physiology, *BODY fluids, *ATOMIC force microscopy
Abstract

Two fundamental mechanisms within alveoli are essential for lung function: regulated fluid transport and secretion of surfactant. Surfactant is secreted via exocytosis of lamellar bodies (LBs) in alveolar type II (ATII) cells. We recently reported that LB exocytosis results in fusion-activated cation entry (FACE) via P2X4 receptors on LBs. We propose that FACE, in addition to facilitating surfactant secretion, modulates alveolar fluid transport. Correlative fluorescence and atomic force microscopy revealed that FACE-dependent water influx correlated with individual fusion events in rat primary ATII cells. Moreover, ATII cell monolayers grown at air-liquid interface exhibited increases in short-circuit current (Isc) on stimulation with ATP or UTP. Both are potent agonists for LB exocytosis, but only ATP activates FACE. ATP, not UTP, elicited additional fusion-dependent increases in Isc. Overexpressing dominant-negative P2X4 abrogated this effect by ~50%, whereas potentiating P2X4 lead to ~80% increase in Isc. Finally, we monitored changes in alveolar surface liquid (ASL) on ATII monolayers by confocal microscopy. Only stimulation with ATP, not UTP, led to a significant, fusion-dependent, 20% decrease in ASL, indicating apical-to-basolateral fluid transport across ATII monolayers. Our data support the first direct link between LB exocytosis, regulation of surfactant secretion, and transalveolar fluid resorption via FACE. [ABSTRACT FROM AUTHOR]

Published
2013
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137. Annexin A7 and SNAP23 interactions in alveolar type II cells and in vitro: A role for Ca2+ and PKC

Author

Gerelsaikhan, Tudevdagva, Vasa, Pavan Kumar, and Chander, Avinash

Subjects
*ANNEXINS, *ALVEOLAR nerve, *CALCIUM ions, *PULMONARY surfactant, *CELL membranes, *PHOSPHORYLATION, *GENE fusion, *PROTEIN kinase C, *ENZYME inhibitors
Abstract

Abstract: Lung surfactant secretion involves lamellar body docking and fusion with the plasma membrane in alveolar type II cells. Annexin A7 (A7) is postulated to play a role in membrane fusion during exocytosis. Our recent studies demonstrated increased co-localization of A7 with ABCA3 in lamellar bodies in type II cells stimulated with established secretagogues of lung surfactant. In this study, we investigated in vivo and in vitro interactions of A7 with the t-SNARE protein, SNAP23. Immuno-fluorescence studies showed time-dependent increases in co-localization of A7 with SNAP23 in PMA- and in A23187-stimulated cells. PMA and A23187 also caused a time-dependent increase in co-localization of ABCA3 with SNAP23. The relocation of A7 to SNAP23 domains was inhibited in the presence of PKC inhibitor, similar to that previously reported for co-localization of A7 with ABCA3. The interaction of A7 and SNAP23 was confirmed by affinity binding and by in vitro interaction of recombinant A7 and SNAP23 proteins. The in vitro binding of recombinant A7 (rA7) to GST-SNAP23 fusion protein was calcium-dependent. Phosphorylation of rA7 with PKC increased its in vitro binding to SNAP23 suggesting that a similar mechanism may operate during A7 relocation to t-SNARE domains. Thus, our studies demonstrate that annexin A7 may function in co-ordination with SNARE proteins and that protein kinase activation may be required for annexin A7 trafficking to the interacting membranes (lamellar bodies and plasma membrane) to facilitate membrane fusion during surfactant secretion. [Copyright &y& Elsevier]

Published
2012
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138. Actin coating and compression of fused secretory vesicles are essential for surfactant secretion - a role for Rho, formins and myosin II.

Author

Miklavc, Pika, Hecht, Elena, Hobi, Nina, Wittekindt, Oliver H., Dietl, Paul, Kranz, Christine, and Frick, Manfred

Subjects
*ACTIN, *SURFACE active agents, *SECRETORY granules, *MYOSIN, *EXOCYTOSIS
Abstract

Secretion of vesicular contents by exocytosis is a fundamental cellular process. Increasing evidence suggests that post-fusion events play an important role in determining the composition and quantity of the secretory output. In particular, regulation of fusion pore dilation and closure is considered a key regulator of the post-fusion phase. However, depending on the nature of the cargo, additional mechanisms might be essential to facilitate effective release. We have recently described that in alveolar type II (ATII) cells, lamellar bodies (LBs), which are secretory vesicles that store lung surfactant, are coated with actin following fusion with the plasma membrane. Surfactant, a lipoprotein complex, does not readily diffuse out of fused LBs following opening and dilation of the fusion pore. Using fluorescence microscopy, atomic force microscopy and biochemical assays, we present evidence that actin coating and subsequent contraction of the actin coat is essential to facilitate surfactant secretion. Latrunculin B prevents actin coating of fused LBs and inhibits surfactant secretion almost completely. Simultaneous imaging of the vesicle membrane and the actin coat revealed that contraction of the actin coat compresses the vesicle following fusion. This leads to active extrusion of vesicle contents. Initial actin coating of fused vesicles is dependent on activation of Rho and formin-dependent actin nucleation. Actin coat contraction is facilitated by myosin II. In summary, our data suggest that fusion pore opening and dilation itself is not sufficient for release of bulky vesicle cargos and that active extrusion mechanisms are required. [ABSTRACT FROM AUTHOR]

Published
2012
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139. Proteomic Analysis of Lamellar Bodies Isolated from Amniotic Fluid: Implications for Function.

Author

Ridsdale, Ross, Lewis, David F., Weaver, Timothy E., and Akinbi, Henry T.

Subjects
*AMNIOTIC liquid, *ELECTROPHORESIS, *LUNGS, *MASS spectrometry, *PROTEINS, *WESTERN immunoblotting, *PROTEOMICS, *DATA analysis software, *DESCRIPTIVE statistics
Abstract

Lamellar body count (LBC) in amniotic fluid is a well-established method for assessing fetal lung maturity. However, the biogenesis and function of lamellar bodies (LBs) secreted into the amniotic fluid have not been formally assessed. We purified LBs from amniotic fluids obtained from term gestation pregnancies that had been determined to have mature LBC. Using tandem mass spectrometry, we identified 122 unique proteins in the LB preparations from the amniotic fluids. There was minimal overlap between the proteins identified in amniotic fluid LB and those reported for human epidermis LB. In contrast, there was >40% concordance with the proteome of rat lung LBs despite species differences. Classification of the identified proteins into functional bins demonstrated that the preponderance of amniotic fluid LB proteins was associated with host defense or anti-inflammatory functions. These data suggest that amniotic fluid LBs are derived from lung secretions and may play an important role in innate host defense of the fetus. [ABSTRACT FROM AUTHOR]

Published
2012
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140. Amniotic lamellar body counts can predict the occurrence of respiratory distress syndrome as well as transient tachypnea of the newborn (TTN).

Author

Tsuda, Hiroyuki, Takahashi, Yuichiro, Iwagaki, Shigenori, Uchida, Yasushi, Kawabata, Ichiro, Hayakawa, Masahiro, Sumigama, Seiji, Hayakawa, Hiromi, Kotani, Tomomi, and Kikkawa, Fumitaka

Subjects
*RESPIRATORY disease risk factors, *PREDICTIVE tests, *AMNIOTIC liquid, *CASE-control method, *T-test (Statistics), *DESCRIPTIVE statistics, *RESPIRATORY distress syndrome, *CESAREAN section, *DATA analysis software, *RECEIVER operating characteristic curves, *DISEASE risk factors
Abstract

Aims: The purpose of this study is to predict the occurrence of transient tachypnea of the newborn (TTN) using amniotic lamellar body count (LBC) and compare the LBCs in neonates with TTN with the LBCs in neonates with respiratory distress syndrome (RDS) and controls. Methods: Three hundred and eighty-one amniotic fluid samples were obtained at cesarean section from 27 to 40 weeks of gestation. Samples were analyzed immediately without centrifugation and the number of lamellar bodies was counted. Results: The LBC in amniotic fluid ranged from 1,000 to 577,000/μL. An LBC cut-off value of 48,500/μL resulted in 84.7% sensitivity, 76.2% specificity, and 98.1% negative predictive value for predicting TTN. The LBC in neonates with TTN was significantly lower than that in controls (50,000 vs. 122,000; P<0.001) and significantly higher than that in neonates with RDS (50,000 vs. 21,000; P=0.042). Conclusions: We established a cut-off value of LBC for predicting the occurrence of TTN. The LBC in neonates with TTN was significantly lower than that in controls. Amniotic LBC can be a useful marker to predict if neonatal respiratory management is required. [ABSTRACT FROM AUTHOR]

Published
2011
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141. Ultrastructure and Large Subunit rDNA-Based Phylogeny of Sphaerodinium cracoviense, an Unusual Freshwater Dinoflagellate with a Novel Type of Eyespot CRAVEIRO ET AL. SPHAERODINIUM ULTRASTRUCTURE AND PHYLOGENY.

Author

CRAVEIRO, SANDRA C., MOESTRUP, ØJVIND, DAUGBJERG, NIELS, and CALADO, ANTÓNIO J.

Subjects
*RIBOSOMAL DNA, *SCANNING electron microscopy, *MICROSCOPY, *TRANSMISSION electron microscopy, *BIOLOGICAL research
Abstract

Sphaerodinium cracoviense was collected near Cracow, Poland, and analysed by light microscopy, scanning electron microscopy, and serial-section transmission electron microscopy. Thecae showed a peridinioid type of plate arrangement with unusual numbers in the anterior intercalary and postcingular plate series: 4 and 6, respectively. The apical pore of S. cracoviense differed from the typical arrangement seen in many thecate forms and included a furrow with knob-like protuberances reminiscent of the apical area of some woloszynskioids. The flagellar apparatus included the three microtubular roots that extend to the left of the basal bodies and a striated root connective between the transverse striated root and the longitudinal microtubular root. Both the single-stranded root that associates with the right side of the longitudinal basal body in peridinioids and gonyaulacoids, and the layered connective typical of peridinioids were absent. The eyespot was formed by a layer of vesicle-contained crystal-like units underlain by layers of variably fused globules not bounded by membranes, and represents a novel type. The pusular system included a long canal with a dilated inner portion with radiating tubules. Bayesian and maximum likelihood analyses based on large subunit rDNA placed Sphaerodinium as a sister taxon to a group of woloszynskioids and relatively far from Peridinium and its allies. [ABSTRACT FROM AUTHOR]

Published
2010
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142. The surfactant lipid transporter ABCA3 is N-terminally cleaved inside LAMP3-positive vesicles

Author

Engelbrecht, Stefanie, Kaltenborn, Eva, Griese, Matthias, and Kern, Sunčana

Subjects
*ATP-binding cassette transporters, *GENETIC mutation, *SURFACE active agents, *PROTEOLYTIC enzymes, *INTERSTITIAL lung diseases, *ENDOPLASMIC reticulum, *MEMBRANE proteins, *COATED vesicles
Abstract

Abstract: ABCA3 mutations cause fatal surfactant deficiency and interstitial lung disease. ABCA3 protein is a lipid transporter indispensible for surfactant biogenesis and storage in lamellar bodies (LB). The protein folds in endoplasmic reticulum and is glycosylated in Golgi en route to the membrane of mature LB and their precursor multivesicular bodies (MVB). In immunoblots, C-terminally labeled ABCA3 appears as two protein bands of 150 and 190kDa. Using N- and C-terminal protein tags and hindering ABCA3 processing we show that the 150kDa protein represents the mature ABCA3 whose N-terminus is cleaved by a cysteine protease inside MVB/LB. Structured summary: MINT-7996633: Calnexin (uniprotkb:P27824) and ABCA3 (uniprotkb:Q99758) colocalize (MI:0403) by fluorescence microscopy (MI:0416) MINT-7996380,MINT-7996593,MINT-7996607: LAMP3 (uniprotkb:Q9UQV4) and ABCA3 (uniprotkb:Q99758) colocalize (MI:0403) by fluorescence microscopy (MI:0416) [ABSTRACT FROM AUTHOR]

Published
2010
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143. Lamellar body ultrastructure revisited: high-pressure freezing and cryo-electron microscopy of vitreous sections.

Author

Vanhecke, Dimitri, Herrmann, Gudrun, Graber, Werner, Hillmann-Marti, Therese, Mühlfeld, Christian, Studer, Daniel, and Ochs, Matthias

Subjects
*EPITHELIAL cells, *ELECTRON microscopy, *LUNGS, *LOW temperature engineering, *CRYOELECTRONICS, *ORGANELLE formation
Abstract

Lamellar bodies are the storage sites for lung surfactant within type II alveolar epithelial cells. The structure-function models of lamellar bodies are based on microscopic analyses of chemically fixed tissue. Despite available alternative fixation methods that are less prone to artifacts, such as cryofixation by high-pressure freezing, the nature of the lung, being mostly air filled, makes it difficult to take advantage of these improved methods. In this paper, we propose a new approach and show for the first time the ultrastructure of intracellular lamellar bodies based on cryo-electron microscopy of vitreous sections in the range of nanometer resolution. Thus, unspoiled by chemical fixation, dehydration and contrasting agents, a close to native structure is revealed. Our approach uses perfluorocarbon to substitute the air in the alveoli. Lung tissue was subsequently high-pressure frozen, cryosectioned and observed in a cryo-electron microscope. The lamellar bodies clearly show a tight lamellar morphology. The periodicity of these lamellae was 7.3 nm. Lamellar bifurcations were observed in our cryosections. The technical approach described in this paper allows the examination of the native cellular ultrastructure of the surfactant system under near in vivo conditions, and therefore opens up prospectives for scrutinizing various theories of lamellar body biogenesis, exocytosis and recycling. [ABSTRACT FROM AUTHOR]

Published
2010
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144. Altered lung surfactant system in a Rab38-deficient rat model of Hermansky-Pudlak syndrome.

Author

Osanai, Kazuhiro, Higuchi, Junko, Oikawa, Rieko, Kobayashi, Makoto, Tsuchihara, Katsuma, Iguchi, Masaharu, Jyongsu Huang, Voelker, Dennis R., and Toga, Hirohisa

Subjects
*PHENOTYPES, *GENETIC mutation, *ALBINISM, *DISEASE susceptibility, *ANIMAL models in research, *LABORATORY rats, *LUNG diseases
Abstract

Several Long-Evans rat substrains carrying the phenotype of oculo-cutaneous albinism and bleeding diathesis are a rat model of Hermansky-Pudlak syndrome (HPS). The mutation responsible for the phenotype (Ruby) was identified as a point mutation in the initiation codon of Rab38 small GTPase that regulates intracellular vesicle transport. As patients with HPS often develop life-limiting interstitial pneumonia accompanied by abnormal morphology of alveolar type II cells, we investigated lung surfactant system in Long-Evans Cinnamon rats, one strain of the Ruby rats. The lungs showed conspicuous morphology of type II cells containing markedly enlarged lamellar bodies. Surfactant phosphatidylcholine and surfactant protein B were increased in lung tissues and lamellar bodies but not in alveolar lumen. Expression levels of mRNA for surfactant proteins A, B, C, and D were not altered. Isolated type II cells showed aberrant secretory pattern of newly synthesized [3H]phosphatidylcholine, i.e., decreased basal secretion and remarkably amplified agonist-induced secretion. [3H]phosphatidylcholine synthesis and uptake by type II cells were not altered. Thus Rab38-deficient type II cells appear to carry abnormality in lung surfactant secretion but not in synthesis or uptake. These results suggest that aberrant lung surfactant secretion may be involved in the pathogenesis of interstitial pneumonia in HPS. [ABSTRACT FROM AUTHOR]

Published
2010
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145. Aberrant catalytic cycle and impaired lipid transport into intracellular vesicles in ABCA3 mutants associated with nonfatal pediatric interstitial lung disease.

Author

Matsumura, Yoshihiro, Ban, Nobuhiro, and Inagaki, Nobuya

Subjects
*ATP-binding cassette transporters, *INTERSTITIAL lung diseases in children, *PEDIATRIC respiratory diseases, *HYDROLYSIS, *PHYSIOLOGY
Abstract

The ATP-binding cassette transporter ABCA3 mediates uptake of choline-phospholipids into intracellular vesicles and is essential for surfactant metabolism in lung alveolar type II cells. We have shown previously that ABCA3 mutations in fatal surfactant deficiency impair intracellular localization or ATP hydrolysis of ABCA3 protein. However, the mechanisms underlying the less severe phenotype of patients with ABCA3 mutation are unclear. In this study, we characterized ABCA3 mutant proteins identified in pediatric interstitial lung disease (pILD). E292V (intracellular loop 1), E690K (adjacent to Walker B motif in nucleotide binding domain 1), and T1114M (8th putative transmembrane segment) mutant proteins are localized mainly in intracellular vesicle membranes as wild-type protein. Lipid analysis and sucrose gradient fractionation revealed that the transport function of E292V mutant protein is moderately preserved, whereas those of E690K and T1114M mutant proteins are severely impaired. Vanadate-induced nucleotide trapping and photoaffinity labeling of wild-type and mutant proteins using 8-azido[32P]ATP revealed an aberrant catalytic cycle in these mutant proteins. These results demonstrate the importance of a functional catalytic cycle in lipid transport of ABCA3 and suggest a pathophysiological mechanism of pILD due to ABCA3 mutation. [ABSTRACT FROM AUTHOR]

Published
2008
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146. Posttranslational Regulation of Surfactant Protein B Expression.

Author

Guttentag, Susan

Abstract

Although a minor constituent by weight, surfactant protein B (SP-B) plays a major role in surfactant function. It is the unique structure of SP-B that promotes permeabilization, cross-linking, mixing, and fusion of phospholipids, facilitating the proper structure and function of pulmonary surfactant as well as contributing to the formation of lamellar bodies. SP-B production is a complex process within alveolar type 2 cells and is under hormonal and developmental control. Understanding the posttranslational events in the maturation of SP-B may provide new insight into the process of lamellar body formation and into the pathophysiology of pulmonary disorders associated with surfactant abnormalities. [Copyright &y& Elsevier]

Published
2008
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147. Structure of pulmonary surfactant membranes and films: The role of proteins and lipid–protein interactions

Author

Pérez-Gil, Jesús

Subjects
*PULMONARY surfactant, *MEMBRANE proteins, *MEMBRANE lipids, *PROTEIN-protein interactions
Abstract

Abstract: The pulmonary surfactant system constitutes an excellent example of how dynamic membrane polymorphism governs some biological functions through specific lipid–lipid, lipid–protein and protein–protein interactions assembled in highly differentiated cells. Lipid–protein surfactant complexes are assembled in alveolar pneumocytes in the form of tightly packed membranes, which are stored in specialized organelles called lamellar bodies (LB). Upon secretion of LBs, surfactant develops a membrane-based network that covers rapidly and efficiently the whole respiratory surface. This membrane-based surface layer is organized in a way that permits efficient gas exchange while optimizing the encounter of many different molecules and cells at the epithelial surface, in a cross-talk essential to keep the whole organism safe from potential pathogenic invaders. The present review summarizes what is known about the structure of the different forms of surfactant, with special emphasis on current models of the molecular organization of surfactant membrane components. The architecture and the behaviour shown by surfactant structures in vivo are interpreted, to some extent, from the interactions and the properties exhibited by different surfactant models as they have been studied in vitro, particularly addressing the possible role played by surfactant proteins. However, the limitations in structural complexity and biophysical performance of surfactant preparations reconstituted in vitro will be highlighted in particular, to allow for a proper evaluation of the significance of the experimental model systems used so far to study structure–function relationships in surfactant, and to define future challenges in the design and production of more efficient clinical surfactants. [Copyright &y& Elsevier]

Published
2008
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148. Ultrastructural evaluation of type II pneumocytes in the hypoplastic lung of rabbit fetuses induced by oligohydramnios.

Author

Asabe, Koushi, Oka, Yoichiro, Kai, Hiroki, and Shirakusa, Takayuki

Subjects
*ELECTRON microscopy, *LAMELLARIIDAE, *FETUS, *RESPIRATORY organs, *SURFACE active agents
Abstract

Aim: The present study was carried out using electron microscopy to evaluate the expression of lamellar bodies in type II pneumocytes of fetal rabbit lungs with hypoplasia induced by oligohydramnios. Methods: Using an amniotic shunting rabbit model, the lungs obtained from 32 fetuses, including 16 experimental fetuses (shunting group) and 16 control fetuses (control group), were used for electron microscopic studies. At least 250 type II pneumocytes per fetus were photographed. The number of lamellar bodies per type II pneumocyte was counted. Results: The number of lamellar bodies per type II pneumocyte of the shunting group was consistently and significantly less than that of the control group (5.49 ± 2.07 vs 7.58 ± 2.08; P < 0.01). Conclusions: These results suggest that the occurrence of hypoplastic lungs induced by oligohydramnios is associated with an immaturity of the surfactant system, especially the expression of the lamellar bodies of type II pneumocytes. [ABSTRACT FROM AUTHOR]

Published
2007
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149. Influence of N-acetyl-5-methoxytryptamine on Fetal Lung Maturation in Experimental Preterm Delivery Model.

Author

Çelik, Önder, Hasçalık, Şeyma, Tamser, Mustafa, Kırımoğlu, Hale, Güven, M. Atahan, Doğru, M. İlker, Doğru, A. Kocagün, Türköz, Yusuf, and Yürekli, Muhittin

Subjects
MELATONIN, RATS, PREGNANCY, ADRENOMEDULLIN, NITRIC oxide, AMNIOTIC fluid embolism, LUNGS, SECRETION, PREMATURE labor
Abstract

Copyright of Journal of the Turkish-German Gynecological Association is the property of Galenos Yayinevi Tic. LTD. STI and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2007

150. Effect of maternal dexamethasone treatment on the type II pneumocytes in hypoplastic lung by oligohydramnios: an ultrastructural study.

Author

Asabe, Koushi, Oka, Yoichiro, Kai, Hiroki, and Shirakusa, Takayuki

Subjects
*LUNGS, *SURFACE active agents, *ELECTRON microscopy, *ULTRASTRUCTURE (Biology), *ADRENOCORTICAL hormones, *IMMUNOHISTOCHEMISTRY, *AMNIOTIC liquid, *ANIMAL experimentation, *BIOLOGICAL models, *GLUCOCORTICOIDS, *PNEUMOENCEPHALOGRAPHY, *PREGNANCY complications, *PULMONARY surfactant, *RABBITS, *DEXAMETHASONE, *PHARMACODYNAMICS
Abstract

A previous study documented the effects of maternal corticosteroid treatment on structural growth and functional development in fetal lungs associated with pathogenic conditions such as oligohydramnios using immunohistochemical and morphometric analyses. The purpose of the present study was to examine the effect of maternal dexamethasone treatment the expression of lamellar body in type II pneumocytes of the fetal rabbit lungs with hypoplasia induced by oligohydramnios using electron microscopy. Using an amniotic shunting rabbit model, pregnant rabbits were injected intravenously with either 0.1 ml of saline or 0.25 mg/kg/day of dexamethasone in 0.1 ml of saline 48 and 24 h before the delivery of fetuses, at day 30 of gestation. The number of lamellar bodies per type II pneumocyte was counted in each group using electron micrographs. The number of lamellar bodies per type II pneumocyte in the lungs of the shunted group that received saline was consistently and significantly less than that of the other three groups (5.49 +/- 2.07 vs. 7.34 +/- 2.27: shunted group that received dexamethasone, 7.58 +/- 2.08: non-shunted group that received saline, 7.79 +/- 1.90: non-shunted group that received dexamethasone; P < 0.01). These results suggest that maternal dexamethasone treatment accelerates the maturation of the surfactant system, especially the expression of lamellar bodies in type II pneumocytes, even in hypoplastic lungs induced by oligohydramnios. [ABSTRACT FROM AUTHOR]

Published
2007
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