Haemosporidian parasites of a European passerine wintering in South Asia: diversity, mixed infections and effect on host condition.

We studied haemosporidian parasites in the scarlet rosefinch Carpodacus erythrinus in a small isolated semicolony during an eight-year period using molecular methods of parasite detection. The scarlet rosefinch is an interesting model of parasite host species. It winters in South Asia which represents a rare exception among European passerines. Males express yellow to red carotenoid-based plumage ornament which is a good predictor of male reproductive success. In 240 blood samples originating from 199 adult individuals, the total parasite prevalence reached 60%. Prevalence varied among years from 36 to 81% in Haemoproteus, 8 to 22% in Plasmodium, and 0 to 14% in Leucocytozoon. Twenty parasite lineages were detected (Haemoproteus: 5 lineages, Plasmodium: 10 lineages, and Leucocytozoon: 5 lineages). Among them, the Haemoproteus ROFI2 lineage, which is a host-specific parasite lineage of the scarlet rosefinch, was the most frequently found. Parasite lineages showed varying degree of lineage specificity. While Haemoproteus lineages detected in the scarlet rosefinch have relatively narrow host breadth restricted mainly to Fringillidae family, Leucocytozoon and Plasmodium lineages generally showed wider host range. The presence of some parasite lineages hitherto detected in sedentary European passerines (SISKIN1, CCF3, BT2) or in Culicoides biting midges at the same locality (ROFI1) suggest local transmission. On the contrary, lineages LK05 and FANTAIL1 that were previously reported exclusively from Asian hosts imply parasite transmission at the scarlet rosefinch wintering sites in South Asia. Mixed infections were found in 17% of infected samples and comprised mainly the most frequent lineages. The pattern of concomitant infections seemed to be rather random and matched expected levels based on lineage frequencies. Between-year comparisons revealed that in a majority of the repeatedly captured individual hosts the infection status remained unchanged (individuals stayed uninfected or possessed the same parasite lineages). However, 16 gains and 8 losses of lineages were also reported. We have not found any effect of haemosporidians on male carotenoid ornament expression or host body mass.

Lung vascular targeting using antibody to aminopeptidase P: CT-SPECT imaging, biodistribution and pharmacokinetic analysis.

BACKGROUND/AIMS: Aminopeptidase P (APP) is specifically enriched in caveolae on the luminal surface of pulmonary vascular endothelium. APP antibodies bind lung endothelium in vivo and are rapidly and actively pumped across the endothelium into lung tissue. Here we characterize the immunotargeting properties and pharmacokinetics of the APP-specific recombinant antibody 833c. METHODS: We used in situ binding, biodistribution analysis and in vivo imaging to assess the lung targeting of 833c. RESULTS: More than 80% of 833c bound during the first pass through isolated perfused lungs. Dynamic SPECT acquisition showed that 833c rapidly and specifically targeted the lungs in vivo, reaching maximum levels within 2 min after intravenous injection. CT-SPECT imaging revealed specific targeting of 833c to the thoracic cavity and co-localization with a lung perfusion marker, Tc99m-labeled macroaggregated albumin. Biodistribution analysis confirmed lung-specific uptake of 833c which declined by first-order kinetics (t(½) = 110 h) with significant levels of 833c still present 30 days after injection. CONCLUSION: These data show that APP expressed in endothelial caveolae appears to be readily accessible to circulating antibody rather specifically in lung. Targeting lung-specific caveolar APP provides an extraordinarily rapid and specific means to target pulmonary vasculature and potentially deliver therapeutic agents into the lung tissue.

Extra-pair fertilizations contribute to selection on secondary male ornamentation in a socially monogamous passerine.

Despite considerable research effort, it remains unclear whether extra-pair fertilizations (EPF) drive the evolution of male secondary ornamentation in socially monogamous systems. In this study, we test the hypothesis that EPF contribute to the evolution or maintenance of male feather ornamentation in a sexually dichromatic passerine, the Scarlet Rosefinch, Carpodacus erythrinus. We show that the colouration of ornamental breast feathers is a good predictor of basic sources of variation in male annual reproductive output in rosefinches and that the annual realized reproductive success of males is positively associated with measures of ornamental colouration only when gains and losses because of EPF are considered. The results indicate that EPF in rosefinches may rely on absolute (good genes) rather than self referential (genetic complementarity) criteria of mate choice. Our study corroborates the potentially important role of EPF in the evolution and/or maintenance of elaborate male ornaments in socially monogamous taxa.

Vascular proteomic mapping in vivo.

Molecular targeting of drugs and imaging agents remain important yet elusive goals in modern medicine. Technological advancements in genomics and proteomics methods have detected differentially expressed genes and proteins, uncovering many new candidate targets in a wide array of diseases and tissues. However, methods to validate potential targets in vivo tend to be quite laborious so that the validation and testing phase has become rate-limiting in bringing treatments to the clinic. There is a critical need for integrated approaches combining state-of-the-art methodologies in proteomics and in vivo imaging to accelerate validation of newly discovered vascular targets for nanomedicines, drugs, imaging agents, and gene vectors. This paper is a review of vascular targeting and proteomics, and will present recent developments in proteomic imaging. A new in vivo organellar proteomic imaging platform will be discussed, which combines subcellular fractionation, mass spectrometry, bioinformatic database interrogation, monoclonal antibody technology and a battery of imaging modalities to rapidly discover and validate tissue-specific endothelial protein targets in vivo. Technological advancements are permitting large-scale proteomic mapping to be performed. New targets have been discovered that permit organ-specific targeting in vivo. Improvements in imaging are creating standards for validation of targets in vivo. Tumor imaging and radioimmunotherapy have also been improved through these efforts. Although we are moving towards a comprehensive mapping of the protein expression by the endothelium, much more needs to be done.

Nitrofen induces a redox-dependent apoptosis associated with increased p38 activity in P19 teratocarcinoma cells.

Nitrofen is a diphenyl ether herbicide that produces a spectrum of fetal abnormalities in rodents. To characterize the molecular mechanisms of nitrofen-mediated birth defects at the cellular level, we explored its effects on undifferentiated P19 teratocarcinoma cells. Nitrofen induces a time-dependent cell death of P19 cells that is associated with increases in TUNEL-positivity and caspase-3 cleavage suggesting that nitrofen induces P19 cell apoptosis. In addition, the increase in TUNEL-positive cells was inhibited with zVAD-fmk, suggesting that nitrofen induces a caspase-dependent apoptosis. Nitrofen treatment was associated with increased p38 MAP kinase activity, though pretreatment of cells with multiple p38 inhibitors did not affect nitrofen-mediated caspase-3 cleavage, suggesting caspase-3 cleavage is p38-independent. Nitrofen induced a dose-dependent increase in reactive oxygen species (ROS), which was accompanied by a decrease in the ratio of reduced/oxidized glutathione, indicating that nitrofen alters the cellular redox state of these cells. Furthermore, pretreatment of cells with N-acetyl cysteine gave a dose- and time-dependent reduction of caspase-3 cleavage, supporting the observations that caspase-3 cleavage is cell-redox-dependent. Therefore, nitrofen induces P19 cell apoptosis that is cell-redox-dependent and is associated with increases in p38 activity and ROS and may play a role in nitrofen-mediated birth defects.

Congenital adrenal hyperplasia: surgical considerations required to repair a 46,XX patient raised as a boy.

21-hydroxylase deficiency (P450 CYP21) accounts for 90% of cases of congenital adrenal hyperplasia (CAH), which is associated with abnormally low cortisol and high production of androgen precursors and is the most common cause of ambiguous genitalia. Increased androgen causes in utero virilization of the fetus, consisting of clitoral enlargement, an urogenital sinus, and labioscrotal enlargement and fusion. This is the first case in an experience covering more than 30 years, of a 46,XX patient raised as a boy. The authors report a case of a Pakistani patient born of a consanguineous union, who came to medical attention at age 3 because of severe genital ambiguity; genetic analyses showed that the child was a compound heterozygote for CAH. The surgical management of this patient consisted of (1) staged hypospadias repairs preceded by testosterone therapy, (2) creation of a bladder graft neourethra, (3) removal of müllerian structures, (4) correction of bifid prepenile scrotum, and (5) insertion of testicular prostheses. The commitment to raise a 46,XX child as a boy is a very rare event. With a series of staged complex surgical procedures and careful steroid replacement, normal secondary sexual characteristics can be achieved in these children.

Treatment of pain in acutely burned children.

The child with burns suffers severe pain at the time of the burn and during subsequent treatment and rehabilitation. Pain has adverse physiological and emotional effects, and research suggests that pain management is an important factor in better outcomes. There is increasing understanding of the private experience of pain, and how children benefit from honest preparation for procedures. Developmentally appropriate and culturally sensitive pain assessment, pain relief, and reevaluation have improved, becoming essential in treatment. Pharmacological treatment is primary, strengthened by new concepts from neurobiology, clinical science, and the introduction of more effective drugs with fewer adverse side effects and less toxicity. Empirical evaluation of various hypnotic, cognitive, behavioral, and sensory treatment methods is advancing. Multidisciplinary assessment helps to integrate psychological and pharmacological pain-relieving interventions to reduce emotional and mental stress, and family stress as well. Optimal care encourages burn teams to integrate pain guidelines into protocols and critical pathways for improved care.

Decreased mitogen activated protein kinase activities in congenital diaphragmatic hernia-associated pulmonary hypoplasia.

BACKGROUND/PURPOSE: The mechanisms that cause pulmonary hypoplasia associated with congenital diaphragmatic hernia (CDH) currently are unknown. The authors proposed that the reduced size and immaturity of these lungs may be associated with differences in the levels of mitogen activated protein (MAP) kinase phosphorylation (extracellular signal regulated protein kinases, ERK-1 and -2). METHODS: ERK-1 activities were measured using immune-complex kinase assays on fetal whole-lung lysates obtained from both nitrofen and olive oil-treated (control) pregnant rats. In addition, ERK-1 and ERK-2 functional activities were estimated by semiquantitative Western blot analysis, using an antibody specific for the diphosphorylated (dp-ERK, activated) forms of the enzymes. RESULTS: ERK-1 activities, measured using immune-complex kinase assays, were reduced in CDH lungs compared with olive oil-treated controls (P <.02). In addition, dp-ERK-1 and dp-ERK-2 levels were found to be reduced in CDH lungs compared with controls (dp-ERK-1, P =.003; dp-ERK-2, P =.04), whereas ERK-1 and ERK-2 protein levels were unchanged. CONCLUSIONS: The lower values of ERK-1 activity and reduced amounts of dp-ERK-1 and dp-ERK-2 in lung tissue from CDH animals, suggests that ERK-1 and ERK-2 activities are reduced in pulmonary hypoplasia associated with CDH. The observed reduction in ERK-1 and ERK-2 activities implicates attenuated cell signaling upstream of the ERK-1 and -2 enzymes.

Hierarchical approach to predicting permeation in ion channels.

A hierarchical computational strategy combining molecular modeling, electrostatics calculations, molecular dynamics, and Brownian dynamics simulations is developed and implemented to compute electrophysiologically measurable properties of the KcsA potassium channel. Models for a series of channels with different pore sizes are developed from the known x-ray structure, using insights into the gating conformational changes as suggested by a variety of published experiments. Information on the pH dependence of the channel gating is incorporated into the calculation of potential profiles for K(+) ions inside the channel, which are then combined with K(+) ion mobilities inside the channel, as computed by molecular dynamics simulations, to provide inputs into Brownian dynamics simulations for computing ion fluxes. The open model structure has a conductance of approximately 110 pS under symmetric 250 mM K(+) conditions, in reasonable agreement with experiments for the largest conducting substate. The dimensions of this channel are consistent with electrophysiologically determined size dependence of quaternary ammonium ion blocking from the intracellular end of this channel as well as with direct structural evidence that tetrabutylammonium ions can enter into the interior cavity of the channel. Realistic values of Ussing flux ratio exponents, distribution of ions within the channel, and shapes of the current-voltage and current-concentration curves are obtained. The Brownian dynamics calculations suggest passage of ions through the selectivity filter proceeds by a "knock-off" mechanism involving three ions, as has been previously inferred from functional and structural studies of barium ion blocking. These results suggest that the present calculations capture the essential nature of K(+) ion permeation in the KcsA channel and provide a proof-of-concept for the integrated microscopic/mesoscopic multitiered approach for predicting ion channel function from structure, which can be applied to other channel structures.

Caveolae: from basic trafficking mechanisms to targeting transcytosis for tissue-specific drug and gene delivery in vivo.

Continuous endothelium and epithelium create formidable barriers to endogenous molecules as well as targeted drug and gene therapies in vivo. Caveolae represent a possible vesicular trafficking pathway through cell barriers. Here we discuss recent discoveries regarding the basic function of caveolae in transport including transcellular trafficking, intracellular trafficking to distinct endosomes, and molecular mechanisms mediating their budding, docking and fusion (dynamin and SNARE machinery). New technologies to purify and map caveolae as well as generate new probes selectively targeting caveolae in vivo provide valuable tools not only for investigating caveolar endocytosis/transcytosis but also elucidating new potential applications for site-directed treatment of many diseases. Vascular targeting of the caveolar trafficking pathway may be a useful strategy for achieving tissue-specific pharmacodelivery that also overcomes key, normally restrictive cell barriers which greatly reduce the efficacy of many therapies in vivo.

Tracheal resection and reanastomosis in the neonatal period.

BACKGROUND/PURPOSE: Severe congenital tracheal stenosis is rare. Most of these can be managed conservatively before elective repair. Focal tracheal stenosis has been treated with resection of the involved trachea and primary reanastomosis in older infants. The authors found no reports of repair of this lesion in neonates. Two patients are presented with severe respiratory failure on the first day of life that required extracorporeal life support (ECLS) who underwent successful tracheal resection and reanastomosis (TRR) during the first week of life. METHODS: A retrospective review was conducted. RESULTS: Both babies had severe pulmonary hypertension and carbon dioxide retention despite maximal therapy and were placed on ECLS shortly after transfer. One had an isolated stenosis of the upper trachea, and the other had agenesis of the right lung, esophageal atresia with tracheoesophageal fistula, and a tracheal stenosis at the end of a short trachea with a long, narrow left bronchus. Both underwent diagnostic studies and had surgical repair while on ECLS at day 3 and 7 of life without bleeding complications. They were weaned off ECLS 1 and 8 days after surgery. One patient was extubated and did well. The other was extubated transiently, but required a tracheostomy because of left mainstem bronchomalacia. Both are alive and well at 18 and 38 months of age, with no narrowing of the repairs. CONCLUSION: In the setting of severe respiratory failure requiring ECLS support, TRR can be performed safely and successfully in the neonate with focal tracheal stenosis.

Management of the high-risk pediatric burn patient.

BACKGROUND/PURPOSE: Inhalation injury, flame burn exceeding 30%, and age under 48 months all have been cited as independent risk factors for mortality; the combination of all 3 risk factors is unusual. The authors have experienced an overall reduction in mortality rate and chose to examine this high-risk group to define techniques useful in improving outcome in pediatric burns. METHODS: A review was done of children with all 3 risk factors over a recent 9-year interval. All were treated with a system of care emphasizing precise fluid repletion, early wound excision and closure, and avoidance of injurious pulmonary inflating pressures and concentrations of oxygen. Data are expressed as mean +/- SD. RESULTS: There were 26 children admitted with all 3 risk factors. Their average age was 2.1 +/- 1.1 years (range, 5 weeks to 3.7 years), and burn size was 61% +/- 21% (range, 30% to 98%) of the body surface. All required mechanical ventilation for an average of 28 +/- 4.5 days (range, 7 to 74 days). Two children underwent tracheostomy; all others were treated with protracted oral intubation. Inhaled nitric oxide (NO) was used in 3 children, all of whom were considered for extracorporeal membrane oxygenator (ECMO) support, although none went on to ECMO. Only 7 children (27%) never had any bacteremia. Ventilator-related pneumonia occurred in 8 children (31%). Total lengths of stay, including acute and rehabilitation hospitalizations, averaged 105 +/- 10 days (1.87 +/- 0.2; range, 0.66 to 4.8 days per percent burn). After exclusion of 1 child with a 98% third-and fourth-degree burn, pre-hospital cardiac arrest, and anoxic brain injury who had support withdrawn at 6 hours, all children survived to discharge; 23 followed up in our clinic currently are alive and well with no overt residual respiratory insufficiency. CONCLUSION: A high rate of survival can be expected in young children with large burns and inhalation injury.

Surgical treatment of congenital adrenal hyperplasia.

Unraveling of the genetics of CAH offers the possibility of earlier detection and prenatal treatment or, alternatively, blastocyst embryo selection and eventually in utero gene therapy. Endocrine, surgical, and anesthesia management after birth have improved, leading to a better outcome for these patients. In the authors' experience, early one-stage reconstructive surgery, although demanding, allows one to use all available tissue. Once mastered, the repair is actually technically easier than vaginal pull-through surgery in the adolescent. Patients go through childhood with a body image that is more concordant with normal. Neither the child nor the parents must suffer the anticipation of a major operative intervention at puberty that can cause great emotional stress and that may be more difficult. The authors have encountered situations in late adolescence in which it has been impossible to separate the urogenital sinus from below. Under these circumstances, one can consider a posterior sagittal approach in which the rectum is bivalved to allow one to approach the vagina from below in an attempt to separate it safely from the urethra and to mobilize it to the perineum. It is also feasible to consider fashioning a segment of sigmoid colon as a neovagina, realizing that mucosal drainage needs to be managed daily. The authors have also encountered the rare 46,XX patient raised as a male and committed to the male role. In these cases, the patient can be offered gonadectomy, followed by staged complex hypospadias repair, and surgery to remove Müllerian structures and, if possible, to preserve the vas, followed by prepenile scrotal repair and insertion of testicular prostheses. Children with CAH require a lifetime of care with surgical approaches that are age appropriate. These patients can lead a full and productive life. It is the physician's responsibility to make certain that these children reach their full potential with the least number of interventions, which should be designed and optimized to produce the best possible outcome.

Segregation of heterotrimeric G proteins in cell surface microdomains. G(q) binds caveolin to concentrate in caveolae, whereas G(i) and G(s) target lipid rafts by default.

Select lipid-anchored proteins such as glycosylphosphatidylinositol (GPI)-anchored proteins and nonreceptor tyrosine kinases may preferentially partition into sphingomyelin-rich and cholesterol-rich plasmalemmal microdomains, thereby acquiring resistance to detergent extraction. Two such domains, caveolae and lipid rafts, are morphologically and biochemically distinct, contain many signaling molecules, and may function in compartmentalizing cell surface signaling. Subfractionation and confocal immunofluorescence microscopy reveal that, in lung tissue and in cultured endothelial and epithelial cells, heterotrimeric G proteins (G(i), G(q), G(s), and G(betagamma)) target discrete cell surface microdomains. G(q) specifically concentrates in caveolae, whereas G(i) and G(s) concentrate much more in lipid rafts marked by GPI-anchored proteins (5' nucleotidase and folate receptor). G(q), apparently without G(betagamma) subunits, stably associates with plasmalemmal and cytosolic caveolin. G(i) and G(s) interact with G(betagamma) subunits but not caveolin. G(i) and G(s), unlike G(q), readily move out of caveolae. Thus, caveolin may function as a scaffold to trap, concentrate, and stabilize G(q) preferentially within caveolae over lipid rafts. In N2a cells lacking caveolae and caveolin, G(q), G(i), and G(s) all concentrate in lipid rafts as a complex with G(betagamma). Without effective physiological interaction with caveolin, G proteins tend by default to segregate in lipid rafts. The ramifications of the segregated microdomain distribution and the G(q)-caveolin complex without G(betagamma) for trafficking, signaling, and mechanotransduction are discussed.

Characterization of microglial cells and their response to stimulation in an organotypic retinal culture system.

An organotypic culture system of the early postnatal rat retina was developed to study microglial activation within a tissue environment. One day after tissue preparation, microglial cells of the ganglion cell/nerve fiber layer revealed features of activation. Cells acquired an ameboid morphology as revealed by Bandeiraea simplicifolia lectin staining. Proliferation-as revealed by Ki67 immunocytochemistry-resulted in higher cell densities. In the supernatant, tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and monocyte chemoattractant factor-1 (MCP-1) were detected by using specific enzyme-linked immunosorbent assay systems, activated microglia being the most likely source of their release. After 6 days in vitro (div), microglial cells regained their resting morphology, and cell counts returned to control levels. Concomitantly, the release activity decreased to undetectable levels. When slices were treated at this later stage of cultivation (>6 div) with bacterial lipopolysaccharide (LPS; 100 ng/ml for 24 hours), microglial cells became activated, as revealed by a change in morphology. In parallel, the LPS treatment also resulted in high levels of TNF-alpha, IL-6, and MCP-1 in the culture medium. Both the release from the tissue and the morphological changes of the microglia were reversible. Seventy-two hours after LPS removal, only microglia with ramified morphology were found, and release activities returned to baseline. These data suggest that the organotypic culture of the retina is a useful model for studying microglial activation from its resting form.

Subcellular localization of intracellular protein tyrosine phosphatases in T cells.

A high protein tyrosine phosphatase (PTPase) activity is required to maintain circulating T lymphocytes in a resting phenotype, and to limit the initiation of T cell activation. We report that 15 of the currently known 24 intracellular PTPases are expressed in T cells, namely HePTP, TCPTP, SHP1, SHP2, PEP, PTP-PEST, PTP-MEG2, PTEN, PTPH1, PTP-MEG1, PTP36, PTP-BAS, LMPTP, PRL-1 and OV-1. Most were found in the cytosol and many were enriched at the plasma membrane. Only TCPTP and PTP-MEG2 had subcellular localizations that essentially excludes them from a direct role in early T cell antigen receptor signaling events. Overexpression of 6 of the PTPases reduced IL-2 gene activation, 3 of them thereby identified as novel candidates for negative regulators of TCR signaling. Our findings expand the repertoire of PTPases that should be considered for a regulatory role in T cell activation.

Current expectations for survival in pediatric burns.

BACKGROUND: Conventional wisdom and published reports suggest that children, particularly those younger than 48 months, have higher mortality rates after burns than young adults. However, coincident with refinements in resuscitation, operative techniques, and critical care, survival rates for children with burns seem to have improved. To document this change and to define current expectations, a review of deaths during two 7-year intervals separated by a decade was done. DESIGN: We examined the clinical course of children who died after admission for care of acute thermal burns during two 7-year intervals: calendar years 1974 to 1980 inclusive (group 1) and 1991 to 1997 inclusive (group 2). Dying children were stratified by total body surface area (TBSA) burned: small (0%-39%), midsize (40%-59%), and large (60%-100%) TBSA burns. Children who arrived with anoxic brain injury or in a moribund state with refractory shock were excluded from analysis (4 children in group 1 and 5 in group 2); 2 of these children in group 2 died and became solid organ donors. SETTING: Regional pediatric burn center. PATIENTS: Six hundred seventy-eight children in group 1 and 1150 children in group 2. MAIN OUTCOME MEASURE: Survival. RESULTS: In children with 0% to 39% TBSA burns, mortality was 0.6% in group 1 and 0% in group 2 (Fisher exact test, P = .04; chi2 test, P = .02). In children with 40% to 59% TBSA burns, mortality was 7.7% in group 1 and 0% in group 2 (Fisher exact test, P = .07; chi2 test, P = .047). In children with 60% to 100% TBSA bums, mortality was 33.3% ingroup 1 and 14.3% in group 2 (Fisher exact test, P = .04; chi2 test, P = .02). Although 59% of the children in group 2 were younger than 48 months, including 55% of those with 40% to 59% TBSA burns and 41% of those with 60% to 100% TBSA burns, there were no deaths in this age group. CONCLUSION: Survival rates after burns have improved significantly for children. At present, most children, even young children and children with large burns, should survive.

Caveolae require intact VAMP for targeted transport in vascular endothelium.

Caveolae appear to function in vesicular trafficking of specific molecular cargo into and across vascular endothelial and other cells. They contain the molecular machinery for docking and fusion, similar to other vesicular trafficking systems, yet the mechanisms mediating ligand internalization and targeted intracellular transport by caveolae remain unclear. Using immunoelectron microscopy, we show that caveolae in the microvascular endothelium of rat lung express vesicle-associated membrane protein (VAMP)-2 (also called synaptobrevin) on their cytoplasmic surface. Immunofluorescence studies of cholera toxin B (CTB)-FITC internalization in toxin-treated cells demonstrate that intact VAMP-2 is necessary for the efficient trafficking of caveolar ligands. The CTB subunit binds preferentially to GM1 in caveolae, and N-ethylmaleimide treatment drastically inhibits the intracellular accumulation of CTB. The cleavage of caveolar VAMP-2 with VAMP-specific neurotoxins (botulinum D and F but not A) significantly inhibits CTB endocytosis and targeted intracellular accumulation in cultured endothelial cells. This impairment of caveolae-mediated trafficking provides evidence that caveolae require intact VAMP-2 for efficient targeted delivery via vesicle docking with target organelles.

Immunoisolation of caveolae with high affinity antibody binding to the oligomeric caveolin cage. Toward understanding the basis of purification.

Defining the molecular composition of caveolae is essential in establishing their molecular architecture and functions. Here, we identify a high affinity monoclonal antibody that is specific for caveolin-1alpha and rapidly binds caveolin oligomerized around intact caveolae. We use this antibody (i) to develop a new simplified method for rapidly isolating caveolae from cell and tissue homogenates without using the silica-coating technology and (ii) to analyze various caveolae isolation techniques to understand how they work and why they yield different compositions. Caveolae are immunoisolated from rat lung plasma membrane fractions subjected to mechanical disruption. Sonication of plasma membranes, isolated with or without silica coating, releases caveolae along with other similarly buoyant microdomains and, therefore, requires immunoisolations to purify caveolae. Shearing of silica-coated plasma membranes provides a homogeneous population of caveolae whose constituents (i) remain unchanged after immunoisolation, (ii) all fractionate bound to the immunobeads, and (iii) appear equivalent to caveolae immunoisolated after sonication. The caveolae immunoisolated from different low density fractions are quite similar in molecular composition. They contain a subset of key signaling molecules (i.e. G protein and endothelial nitric oxide synthase) and are markedly depleted in glycosylphosphatidylinositol-anchored proteins, beta-actin, and angiotensin-converting enzyme. All caveolae isolated from the cell surface of lung microvascular endothelium in vivo appear to be coated with caveolin-1alpha. Caveolin-1beta and -2 can also exist in these same caveolae. The isolation and analytical procedures as well as the time-dependent dissociation of signaling molecules from caveolae contribute to key compositional differences reported in the literature for caveolae. This new, rapid, magnetic immunoisolation procedure provides a consistent preparation for use in the molecular analysis of caveolae.