Latent-transforming growth factor beta-binding protein-2 (LTBP-2) is required for longevity but not for development of zonular fibers.

Latent-transforming growth factor beta-binding protein 2 (LTBP-2) is a major component of arterial and lung tissue and of the ciliary zonule, the system of extracellular fibers that centers and suspends the lens in the eye. LTBP-2 has been implicated previously in the development of extracellular microfibrils, although its exact role remains unclear. Here, we analyzed the three-dimensional structure of the ciliary zonule in wild type mice and used a knockout model to test the contribution of LTBP-2 to zonule structure and mechanical properties. In wild types, zonular fibers had diameters of 0.5-1.0 micrometers, with an outer layer of fibrillin-1-rich microfibrils and a core of fibrillin-2-rich microfibrils. LTBP-2 was present in both layers. The absence of LTBP-2 did not affect the number of fibers, their diameters, nor their coaxial organization. However, by two months of age, LTBP-2-depleted fibers began to rupture, and by six months, a fully penetrant ectopia lentis phenotype was present, as confirmed by in vivo imaging. To determine whether the seemingly normal fibers of young mice were compromised mechanically, we compared zonule stress/strain relationships of wild type and LTBP-2-deficient mice and developed a quasi-linear viscoelastic engineering model to analyze the resulting data. In the absence of LTBP-2, the ultimate tensile strength of the zonule was reduced by about 50%, and the viscoelastic behavior of the fibers was altered significantly. We developed a harmonic oscillator model to calculate the forces generated during saccadic eye movement. Model simulations suggested that mutant fibers are prone to failure during rapid rotation of the eyeball. Together, these data indicate that LTBP-2 is necessary for the strength and longevity of zonular fibers, but not necessarily for their formation.

The Development, Growth, and Regeneration of the Crystalline Lens: A Review.

Purpose: This review aims to provide an understanding of the history of research on, the biological processes governing the different forms of, and an overview of more recent work on lens regeneration as they will likely prove vital in bringing the study of lens regeneration into the clinic.Methods: A review of the literature on lens regeneration research was conducted.Results: Lens regeneration is characterized by the regrowth or repair of the lens following the removal of either a portion or of the entire lens. A brief history of research on lens regeneration is provided, from the discovery in early antiquity of the ability of some animals to regenerate lost tissue, to the systematic cataloguing of the mechanisms of lens regeneration in the 19th century, until the more modern unraveling of the genetic and biochemical processes governing lens regeneration. The anatomy and physiology of the lens as well as the mechanisms by which the lens develops inform its regenerative capabilities by determining the processes that must occur in order to regrow a new lens or repair a damaged one. Lens regeneration occurs by one of several species-dependent methods: some amphibians can regrow a new lens after complete removal of the old one while some mammals can only repair a damaged lens. This review provides an overview of the mechanisms controlling the different types of lens regeneration.Conclusion: The development and growth of the intact lens influence the mechanisms that govern lens regeneration. Recent advances in the field have begun to apply concepts of the field in the clinic and have made significant progress towards realizing the goal of using lens regeneration to repair a damaged lens in the clinic.

Ultrasound-responsive droplets for therapy: A review.

The last two decades have seen the development of acoustically activated droplets, also known as phase-change emulsions, from a diagnostic tool to a therapeutic agent. Through bubble effects and triggered drug release, these superheated agents have found potential applications from oncology to neuromodulation. The aim of this review is to summarise the key developments in therapeutic droplet design and use, to discuss the current challenges slowing clinical translation, and to highlight the new frontiers progressing towards clinical implementation. The literature is summarised by addressing the droplet design criteria and by carrying out a multiparametric study of a range of droplet formulations and their associated vaporisation thresholds.

Neuromas as the cause of pain in the residual limbs of amputees. An ultrasound study.

AIM: To explore the morphology of neuromas and to determine the differences, if any, between asymptomatic and symptomatic neuromas using ultrasound. MATERIALS AND METHODS: Eighty patients with symptomatic neuromas were included in this retrospective review. High-resolution ultrasound examination was performed. Transducer pressure allowed real-time analysis of both symptomatic and asymptomatic neuromas. Quantifiable assessment of pain by the patient assigned a pain score of 0, 1, 2, or 3, to each neuroma. RESULTS: One hundred and fifty-nine neuromas were identified in total. Fifty-three neuromas were asymptomatic (pain score=0), very severe pain was recorded in 54 (pain score=3), 16 neuromas were mildly painful (pain score=1) and 36 were moderately painful (pain score=2). The average number of neuromas per patient was 1.98, and the average number of symptomatic neuromas per patient was 1.3. There was no correlation between pain score and patient age, neuroma volume, amputation type, and time since amputation. CONCLUSIONS: High-resolution ultrasound can distinguish between asymptomatic and symptomatic neuromas. Patient age, time since amputation, the type of amputation, and the neuroma volume were not related to the presence of pain.

Gene delivery to the spinal cord using MRI-guided focused ultrasound.

Non-invasive gene delivery across the blood-spinal cord barrier (BSCB) remains a challenge for treatment of spinal cord injury and disease. Here, we demonstrate the use of magnetic resonance image-guided focused ultrasound (MRIgFUS) to mediate non-surgical gene delivery to the spinal cord using self-complementary adeno-associated virus serotype 9 (scAAV9). scAAV9 encoding green fluorescent protein (GFP) was injected intravenously in rats at three dosages: 4 × 10(8), 2 × 10(9) and 7 × 10(9) vector genomes per gram (VG g(-1)). MRIgFUS allowed for transient, targeted permeabilization of the BSCB through the interaction of focused ultrasound (FUS) with systemically injected Definity lipid-shelled microbubbles. Viral delivery at 2 × 10(9) and 7 × 10(9) VG g(-1) leads to robust GFP expression in FUS-targeted regions of the spinal cord. At a dose of 2 × 10(9) VG g(-1), GFP expression was found in 36% of oligodendrocytes, and in 87% of neurons in FUS-treated areas. FUS applications to the spinal cord could address a long-term goal of gene therapy: delivering vectors from the circulation to diseased areas in a non-invasive manner.

Rest-activity disturbances in children with septo-optic dysplasia characterized by actigraphy and 24-hour plasma melatonin profiles.

INTRODUCTION: A trial of melatonin treatment in children with septo-optic dysplasia (SOD) and sleep disruption is accepted clinical practice in many centers. However, no objective measurements of sleep/activity patterns with 24-h melatonin profiles have been published for these individuals, and the pathophysiological basis underlying sleep disorders in SOD remains largely unknown. METHODS: We studied six children with rest-activity disturbances and SOD. All wore an Actiwatch-Mini (a noninvasive method of detecting and recording movement intensity) for 2 wk and were admitted to hospital for a 24-h period during which hourly measurements of serum melatonin were taken. Sleep data were analyzed in conjunction with a detailed sleep diary. Ethical approval was obtained for these studies. RESULTS: Two children produced virtually no melatonin throughout the 24-h period of measurement and had fragmented sleep patterns with no evidence of a non-24-h sleep-wake disorder or delayed sleep-phase disorder. One child had a normal melatonin profile despite actigraphy showing an arrhythmic sleep pattern. The remaining three children had fragmented sleep, with two having normal melatonin profiles and one having a modest increase in daytime melatonin concentrations, making the timing of dim-light melatonin onset difficult to discern. CONCLUSIONS: There is considerable variation in timing and amount of melatonin secretion in these children. Surprisingly, none of the children had either actigraphic or melatonin profile evidence of a non-24-h sleep-wake disorder or delayed sleep-phase disorder. Understanding the heterogeneous nature of underlying sleep disorders in this group of children is important and has implications for their management.

hSMG-1 and ATM sequentially and independently regulate the G1 checkpoint during oxidative stress.

Genotoxic stress activates the phosphatidylinositol 3-kinase-like kinases (PIKKs) that phosphorylate proteins involved in cell cycle arrest, DNA repair and apoptosis. Previous work showed that the PIKK ataxia telangiectasia mutated (ATM) but not ATM and Rad3 related phosphorylates p53 (Ser15) during hyperoxia, a model of prolonged oxidative stress and DNA damage. Here, we show hSMG-1 is responsible for the rapid and early phosphorylation of p53 (Ser15) and that ATM helps maintain phosphorylation after 24 h. Despite reduced p53 phosphorylation and abundance in cells depleted of hSMG-1 or ATM, levels of the p53 target p21 were still elevated and the G(1) checkpoint remained intact. Conditional overexpression of p21 in p53-deficient cells revealed that hyperoxia also stimulates wortmannin-sensitive degradation of p21. siRNA depletion of hSMG-1 or ATM restored p21 stability and the G(1) checkpoint during hyperoxia. These findings establish hSMG-1 as a proximal regulator of DNA damage signaling and reveal that the G(1) checkpoint is tightly regulated during prolonged oxidative stress by both PIKK-dependent synthesis and proteolysis of p21.

Caspofungin as salvage monotherapy for invasive aspergillosis in patients with haematological malignancies or following allogeneic stem cell transplantation: efficacy and concomitant cyclosporin A.

Caspofungin (CAS) has shown efficacy as salvage monotherapy for invasive aspergillosis (IA) in two open label non-comparative trials. The association between hepatotoxicity and concomitant use of CAS and cyclosporin A (CsA) has not been fully elucidated. We report results on CAS efficacy in the first cohort from outside Europe and USA and the interaction between CAS and CsA. We retrospectively reviewed the charts of all patients with haematological malignancies or postallogeneic haematopoietic stem cell transplant (HSCT) who received >/=1 dose of CAS as salvage monotherapy for IA as part of the Australian Special Access Scheme (4/2001-8/2002). Outcomes were assessed at the end of CAS therapy. Favourable response (FR) was defined as >50% clinical and radiological improvement. Risk factors for elevation of liver transaminases (LTs) were examined using multivariate models. 54 patients were included in the analysis with 47 neutropenic at study entry. Proven or probable IA occurred in 11 and refractory IA in 28. An FR occurred in 26 (48.1%) and predictors for a poor response to CAS were allogeneic HSCT, graft vs. host disease and treatment with CAS for <14 days. Concomitant CAS and CsA for >7 days was an independent risk factor for laboratory hepatoxicity. The CAS efficacy results from the Australian cohort confirm those of previous studies. Close monitoring of LTs is necessary on concomitant CAS and CsA but clinically relevant hepatotoxicity is rare.

Sonographic appearances of medial retinacular complex injury in transient patellar dislocation.

AIM: To describe the sonographic appearances of the medial retinacular (MPFR) complex of the knee in patients with acute and recurrent patellar dislocation. MATERIALS AND METHODS: Thirty patients were scanned within 2-4 weeks of an acute episode of lateral patellar dislocation. Eleven gave a history of recurrent patellar dislocation. Ten patients had examination under anaesthesia with arthroscopy and repair of the injury. The sonographic and operative results were compared. RESULTS: The normal sonographic appearance of the MPFR is described. Of the 10 patients who underwent examination under anaesthesia, four patients had complete avulsion of the MPFR from the patella, two patients had avulsion of the MPFR from the adductor tubercle and four patients had avulsion of the MPFR from both the patella and adductor tubercle. There was complete correlation between the sonographic and operative findings for injuries of the MPFR. Other findings included partial retinacular tears, injury to the medial collateral ligament, haematoma within vastus medialis obliquus (VMO) and bony avulsions from the patella and adductor tubercle CONCLUSION: Sonography gives reliable information regarding the site of the injury and its extent thus helping to decide whether conservative or operative treatment is the most appropriate approach to management of the injury.

Influence of building construction work on Aspergillus infection in a hospital setting.

BACKGROUND AND OBJECTIVE: Aspergillus fumigatus is a major pathogen causing nosocomial infections. Hospital outbreaks of invasive aspergillosis have been associated with the renovation and construction of buildings. Building construction work for fire safety upgrading was undertaken during a 16-week period in 2001 at Box Hill Hospital. This study was designed to examine the effect of construction on invasive aspergillosis when using standard and additional protective measures. METHODS: Baseline air sampling was conducted in 18 areas. The validity of the air sampling was assessed by comparing the ability of two air samplers to detect Aspergillus conidia. Surveillance of nosocomial Aspergillus infection was conducted by reviewing the records of patients with a sputum culture positive for Aspergillus and those prescribed amphotericin or itraconazole for the period of construction activity and the same period the previous year. RESULTS: Aspergillus was isolated infrequently and there was no statistically significant difference in the levels of viable pathogenic fungi between areas w here construction work was undertaken and areas where it wasnot undertaken. A moderate agreement was observed between the two air samplers (kappa = 0.4; P < .05). There was no difference in the incidence of invasive aspergillosis between 2000 and 2001 (incidence density ratio, 1.2; 95% confidence interval, 0.3 to 4.1). CONCLUSION: The influence of construction work performed with protective measures needs to be examined in an environment with higher levels of airborne fungi to confirm the findings of this study.

Effects of hyperoxia on tumor necrosis factor alpha and Grobeta expression in newborn rabbit lungs.

Chemokines have been implicated in the pathogenesis of many inflammatory processes, including bronchopulmonary dysplasia in mechanically ventilated premature infants. We hypothesized that early expression of the proinflammatory cytokine, tumor necrosis factor alpha (TNFalpha), would be followed by later expression of the downstream chemokine, Grobeta, in the oxygen-injured newborn lung. Reverse transcriptase-polymerase chain reaction (RT-PCR) and ribonuclease protection assay (RPA) were used to assess TNFalpha and Grobeta mRNA expression in lung RNA samples from newborn rabbits exposed to > 95% O2 for 8-9 days, followed by 60% O2 for a further 2-4 weeks or from control rabbits exposed to air. Four lung samples per condition were collected every 2 days from day 0 to day 14, and at days 22 and 36. Rabbit alveolar macrophages (AM) stimulated in vitro with bacterial lipopolysaccharide served as positive controls ( n = 8). Grobeta mRNA expression in rabbit lung samples increased with oxygen exposure until day 8, then returned toward baseline levels. This corresponded to previously described elevations in neutrophil number in the lungs. TNFalpha mRNA expression in lung samples was below the limit of detection by RPA and showed no upregulation in hyperoxic lung samples by RT-PCR. TNFalpha activity was assessed in lung lavage ( n = 2 samples per condition per time) using an L929 cell line bioassay and was not increased in hyperoxic animals. The expression of Grobeta mRNA without antecedent or concurrent TNFalpha mRNA expression or activity makes it unlikely that Grobeta in the hyperoxic newborn rabbit lung is elaborated in response to a stimulus by TNFalpha.

Breast infection due to dirofilariasis.

We describe a case of dirofilariasis of the breast in a woman presenting with a breast lump. The mammogram and ultrasound appearances are described with histopathological correlation. The suspicion of a parasitic infection was raised by the presence of rod-like structures within a hypoechoic nodule on sonography, appearances that have not been previously described. The case illustrates an unusual diagnostic problem since it presented in a non-endemic area.

p53-dependent induction of p21(Cip1/WAF1/Sdi1) protects against oxygen-induced toxicity.

The beneficial effects of supplemental oxygen delivered to patients suffering from acute respiratory distress is offset by its reduction to genotoxic reactive oxygen species (ROS) that inhibit proliferation and kill pulmonary cells. Cells respond to oxygen-induced damage by expressing the tumor suppressor p53 and the cyclin-dependent kinase inhibitor p21(Cip1/WAF1/Sdi1) (p21), which limits proliferation by blocking entry into S phase. Since preventing DNA synthesis during genotoxic stress may enhance survival, the current study examines whether hyperoxia induces p21 through a p53-dependent pathway and whether p21 protects cells from the toxic effects of oxygen. HCT116 colon carcinoma cells and clonal lines lacking p53 or p21were used in this study because they allow direct cytotoxic comparisons between isogenic cells, without complications arising from unknown genetic differences between nonhomologous cell lines. Hyperoxia (95% O2, 5% CO2) increased p53 abundance, phosphorylation of p53 on serine 15, and p21 mRNA and protein in parental HCT116 cells that ceased proliferation. In contrast, p21 was not detected in either p53- or p21-deficient HCT116 cells, which exited the G1 compartment and were arrested in S and G2/M phases during hyperoxia. Trypan blue-dye exclusion revealed that induction of p21 markedly enhanced survival during exposure and colony survival assays showed that p21 enhanced the ability to resume proliferation during recovery in room air. The observation that p53-dependent induction of p21 prevents exit from G1 and promotes survival during hyperoxia is consistent with the importance of limiting DNA replication during genotoxic stress caused by oxygen exposure.

DNA damage and cell cycle checkpoints in hyperoxic lung injury: braking to facilitate repair.

The beneficial use of supplemental oxygen therapies to increase arterial blood oxygen levels and reduce tissue hypoxia is offset by the knowledge that it injures and kills cells, resulting in increased morbidity and mortality. Although many studies have focused on understanding how hyperoxia kills cells, recent findings reveal that it also inhibits proliferation through activation of cell cycle checkpoints rather than through overt cytotoxicity. Cell cycle checkpoints are thought to be protective because they allow additional time for injured cells to repair damaged DNA and other essential molecules. During recovery in room air, the lung undergoes a burst of proliferation to replace injured and dead cells. Failure to terminate this proliferation has been associated with fibrosis. These observations suggest that growth-suppressive signals, which inhibit proliferation of injured cells and terminate proliferation when tissue repair has been completed, may play an important role in the pulmonary response to hyperoxia. Because DNA replication is coupled with DNA repair, activation of cell cycle checkpoints during hyperoxia may be a mechanism by which cells protect themselves from oxidant genotoxic stress. This review examines the effect of hyperoxia on DNA integrity, pulmonary cell proliferation, and cell cycle checkpoints activated by DNA damage.

The cyclin-dependent kinase inhibitor p21 protects the lung from oxidative stress.

The lung is a major target tissue for oxidative stress, including hyperoxia used to relieve tissue hypoxia. Unfortunately, severe hyperoxia damages DNA, inhibits proliferation, and kills cells, resulting in morbidity and mortality. Although hyperoxia induces the tumor suppressor p53 and its downstream target, the cyclin-dependent kinase inhibitor p21(Cip1/WAF1/Sdi1) (p21), their role in pulmonary injury remains unknown. Using p53- and p21-deficient mice we demonstrate that hyperoxia induces p21 in the absence of p53, suggesting that previous conclusions that p53 does not modify hyperoxic lung injury cannot be extrapolated to p21. In fact, mean survival of p21-deficient mice decreased by 40% and was associated with terminal deoxyribonucleotidyl transferase-mediated deoxyuridine triphosphate-biotin nick-end labeling staining of alveolar debris, indicative of DNA fragmentation and cell death. Ultrastructural analyses revealed that alveolar endothelial and type I epithelial cells died rapidly by necrosis. Although hyperoxia decreased DNA replication in p21-wild-type lungs, it had no effect on replication in p21-deficient lungs. Our findings suggest that p21 protects the lung from oxidative stress, in part, by inhibiting DNA replication and thereby allowing additional time to repair damaged DNA. Our findings have implications for patients suffering from the toxic effects of supplemental oxygen therapies.

The role of p21(CIP1/WAF1) in growth of epithelial cells exposed to hyperoxia.

Previous studies have shown that hyperoxia inhibits proliferation and increases the expression of the tumor suppressor p53 and its downstream target, the cyclin-dependent kinase inhibitor p21(CIP1/WAF1), which inhibits proliferation in the G1 phase of the cell cycle. To determine whether growth arrest was mediated through activation of the p21-dependent G1 checkpoint, the kinetics of cell cycle movement during exposure to 95% O2 were assessed in the Mv1Lu and A549 pulmonary adenocarcinoma cell lines. Cell counts, 5-bromo-2'-deoxyuridine incorporation, and cell cycle analyses revealed that growth arrest of both cell lines occurred in S phase, with A549 cells also showing evidence of a G1 arrest. Hyperoxia increased p21 in A549 but not in Mv1Lu cells, consistent with the activation of the p21-dependent G1 checkpoint. The ability of p21 to exert the G1 arrest was confirmed by showing that hyperoxia inhibited proliferation of HCT 116 colon carcinoma cells predominantly in G1, whereas an isogenic line lacking p21 arrested in S phase. The cell cycle arrest in S phase appears to be a p21-independent process caused by a gradual reduction in the rate of DNA strand elongation. Our data reveal that hyperoxia inhibits proliferation in G1 and S phase and demonstrate that p53 and p21 retain their ability to affect G1 checkpoint control during exposure to elevated O2 levels.

Opposite effects of lithium on proximal and distal caspases of immature and mature primary neurons correlate with earlier paradoxical actions on viability.

To provide an explanation for earlier paradoxical findings of lithium on survival of mature and immature neurons, this study monitors changes in cytosolic caspases in rat cerebellar granule cells (CGC) grown 2-7 days in vitro (DIV), or in murine E-17 cortical neurons. Data show Li+ protects mature 7-DIV CGC parallel to a decrease in proximal and distal caspases but increases levels for immature 2-DIV-CGC or E-17 cortical neurons. Caspases mirror viability based on morphological analyses (dye uptake, phase-contrast, DNA fragmentation), and suggest protection occurs by suppressing activation of a cascade resulting in distal effectors that destroy proteins essential for neuronal survival. Protection was dose-dependent with EC50 3.0 mM and extended to 64 h in K+-serum deprived apoptotic media. Neuronal extracts contain a spectrum of proximal (-2, -8, -9) and distal (-3, -6) caspases sensitive to Li+ on assay with preferred peptide substrates and by immunoblotting. The lack of direct effect on activated cytosols indicates Li+ acts upstream only on intact cells, at sites for recruitment of pivotal procaspases. Alterations of procaspase-9 p46 and membrane-bound cytochrome c (Apaf-1) point to interaction with an intrinsic Mt-mediated pathway as one of the targets. The opposite effects on caspases and viability of immature or embryological neurons point to existence of alternative pathways that alter during neurite outgrowth suggesting the use of Li+ as a probe to unravel events relevant to neurogenesis.