The Antifungal and Anti-Pneumocystis Activities of the Novel Compound A3IS (Mycosinate).

A3IS (Mycosinate) is a synthetic product which only contains ingredients found naturally within honey. A3IS is a broad-spectrum antimicrobial product which produces a sustained release of hydrogen peroxide at low but therapeutic levels. The product elicits this release through an enzymatic reaction between glucose oxidase and the substrate glucose once the product is hydrated. As medical uses for different honeys are being re-evaluated, the purpose of this study was to evaluate the in vitro effects of A3IS against a comprehensive panel of human pathogens, including Pneumocystis species, providing a unique assessment against a panel of eukaryotic pathogens. Without exception, A3IS exhibited significant efficacy at 50% and 100% inhibitory concentrations against a broad spectrum of human pathogens including yeasts, molds (both hyaline and dematiaceous), and dimorphic fungi. Notably, A3IS was effective against fungal strains with a high level of resistance to fluconazole or voriconazole. The 50% inhibitory concentrations for Pneumocystis carinii and P. murina (surrogates for P. jirovecii) were considered "Marked" and "Moderate" on an established rank scale, and would be considered for in vivo studies, based on an established in vitro-in vivo pipeline. These results indicate that A3IS is a novel anti-fungal agent against an extensive range of human fungal pathogens.

Dynamic infrared imaging of cerebrospinal fluid tracer influx into the brain.

Significance: The glymphatic system has been described recently as a series of perivascular channels that facilitate fluid exchange and solute clearance in the brain. Glymphatic dysfunction has been implicated in numerous pathological conditions, including Alzheimer's disease, traumatic brain injury, and stroke. Existing methods for assessing glymphatic function have been challenging: dynamic methods, such as two-photon microscopy and contrast-enhanced magnetic resonance imaging require expensive instrumentation and specific technical skills; slice-based fluorescent imaging is more readily implemented but lacks temporal resolution. Aim: To develop a straightforward and adaptable dynamic imaging approach for assessing glymphatic function in vivo in mice. Approach: Using a widely available small animal infrared (IR) imaging system (LICOR Pearl), visualization of IR cerebrospinal fluid tracer distribution over the cortical surface enables time-resolved measurement of the dynamics of glymphatic exchange. Using co-injection of IR and conventional fixable fluorescent tracers, dynamic imaging can be paired with whole-slice fluorescence imaging, permitting the quantification of glymphatic function throughout the brain as well as subsequent histological assessment. Results: These techniques were validated against one another, comparing differences between animals anesthetized with ketamine/xylazine and isoflurane. Conclusions: This technique permits sensitive dynamic imaging of glymphatic function, with the concurrent visualization of resolution of deeper structures.

Loss of perivascular aquaporin-4 localization impairs glymphatic exchange and promotes amyloid ß plaque formation in mice.

BACKGROUND: Slowed clearance of amyloid ß (Aß) is believed to underlie the development of Aß plaques that characterize Alzheimer's disease (AD). Aß is cleared in part by the glymphatic system, a brain-wide network of perivascular pathways that supports the exchange of cerebrospinal and brain interstitial fluid. Glymphatic clearance, or perivascular CSF-interstitial fluid exchange, is dependent on the astroglial water channel aquaporin-4 (AQP4) as deletion of Aqp4 in mice slows perivascular exchange, impairs Aß clearance, and promotes Aß plaque formation. METHODS: To define the role of AQP4 in human AD, we evaluated AQP4 expression and localization in a human post mortem case series. We then used the α-syntrophin (Snta1) knockout mouse model which lacks perivascular AQP4 localization to evaluate the effect that loss of perivascular AQP4 localization has on glymphatic CSF tracer distribution. Lastly, we crossed this line into a mouse model of amyloidosis (Tg2576 mice) to evaluate the effect of AQP4 localization on amyloid ß levels. RESULTS: In the post mortem case series, we observed that the perivascular localization of AQP4 is reduced in frontal cortical gray matter of subjects with AD compared to cognitively intact subjects. This decline in perivascular AQP4 localization was associated with increasing Aß and neurofibrillary pathological burden, and with cognitive decline prior to dementia onset. In rodent studies, Snta1 gene deletion slowed CSF tracer influx and interstitial tracer efflux from the mouse brain and increased amyloid ß levels. CONCLUSIONS: These findings suggest that the loss of perivascular AQP4 localization may contribute to the development of AD pathology in human populations.

Mycobacterium abscessus Complex Osteomyelitis of the Wrist.

Mycobacterium abscessus (M. abscessus) is a ubiquitous, rapidly growing non-tuberculous mycobacterium, which is known to cause life-threatening lung infections in immunocompromised individuals following exposure to contaminated injectable products. We report a case of M. abscessus osteomyelitis of the right wrist in a 28-year-old patient with a history of intravenous drug use and a recent surgical repair of the right radial artery pseudoaneurysm. The patient underwent surgical debridement of the right distal radius infection. Histopathological examination and culture of the debrided tissue revealed M. abscessus complex infection. The patient was placed on intravenous amikacin, azithromycin, and cefoxitin for six weeks, followed by oral linezolid and clofazimine for six months.

Carpal Tunnel Syndrome in Transthyretin Cardiac Amyloidosis: Implications and Protocol for Diagnosis and Treatment.

Amyloidosis is a group of disorders that occurs due to the aggregation of insoluble and misfolded proteins in the extracellular space, eventually resulting in organ dysfunction. Type II amyloidosis is caused by the deposition of transthyretin (TTR), which will be the main focus of this article. Deposition of TTR in the myocardium results in a restrictive form of cardiomyopathy. TTR can also deposit in the flexor tenosynovium resulting in carpal tunnel syndrome (CTS). CTS develops five to ten years prior to cardiac amyloidosis (CA), and therefore, the temporal relationship allows CTS to be a diagnostic indicator for CA. This report discusses a 65-year-old female and a 76-year-old male, both presenting with pain and paresthesia in the distribution of the median nerve in the left and right wrist. In each case, the diagnosis of bilateral CTS was supported by a positive Phalen's maneuver and Tinel's sign. Subsequent tenosynovial and transverse carpal ligament biopsies were performed with Congo red stain revealing amyloid deposits of TTR monomers. This prompted the investigation into possible cardiac involvement. Following cardiac evaluation, the diagnosis of CA was established for the deposition of TTR amyloid monomers. CA has gained much attention in the medical community due to the improvements in cardiac imaging, therapeutic interventions, and diagnostic indicators. Medical professionals should be urged to have a high level of clinical suspicion and refer patients with CTS and select risk factors for cardiac evaluation.

Development and characterization of a human articular cartilage-derived chondrocyte cell line that retains chondrocyte phenotype.

Chondrocytes, the only cell type present in articular cartilage, regulate tissue homeostasis by a fine balance of metabolism that includes both anabolic and catabolic activities. Therefore, the biology of chondrocytes is critical for understanding cartilage metabolism. One major limitation when studying primary chondrocytes in culture is their loss of phenotype. To overcome this hurdle, limited attempts have been made to develop human chondrocyte cell lines that retain the phenotype for use as a good surrogate model. In this study, we report a novel approach to the establishment and characterization of human articular cartilage-derived chondrocyte cell lines. Adenoviral infection followed by culture of chondrocytes in 3-dimensional matrix within 48 h post-infection maintained the phenotype prior to clonal selection. Cells were then placed in culture either as monolayer, or in 3-dimensional matrix of alginate or agarose. The clones were characterized by their basal gene expression profile of chondrocyte markers. Based on type II collagen expression, 21 clones were analyzed for gene expression following treatment with IL-1 or BMP-7 and compared to similarly stimulated primary chondrocytes. This resulted in selection of two clones that retained the chondrocyte phenotype as evidenced by expression of type II collagen and other extra-cellular matrix molecules. In addition, one clone (AL-4-17) showed similar responses as primary chondrocytes when treated with IL-1 or BMP-7. In summary, this report provides a novel procedure to develop human articular cartilage-derived chondrocyte cell lines, which preserve important characteristics of articular chondrocytes and represent a useful model to study chondrocyte biology.

Estrogen-induced stromal cell-derived factor-1 (SDF-1/Cxcl12) expression is repressed by progesterone and by Selective Estrogen Receptor Modulators via estrogen receptor alpha in rat uterine cells and tissues.

Endometriosis, defined as the presence of endometrial glands and stroma at extra-uterine sites, is a gynecological condition that affects women of reproductive age. Consistent with its uterine origins, endometriotic lesions and resulting symptoms are hormonally responsive. To investigate Progesterone Receptor (PR)-based therapies, we measured physiological endpoints and gene expression in rat models of uterine cell estrogenic activity. Estrogen-induced ELT-3 rat leiomyoma cell proliferation was significantly inhibited by progesterone (P4), while the antiprogestin RU486 or the Selective PR Modulator (SPRM) asoprisnil, did not block proliferation. Stromal cell-derived factor-1 (SDF-1/Cxcl12) gene expression was induced by estrogen, and was repressed by the Selective Estrogen Receptor Modulators (SERMs), the antiestrogen ICI 182,780, and P4, but not by RU486 or the ERbeta-selective ligand ERB-041. In ELT-3 cells, asoprisnil demonstrated partial PR agonism on SDF-1 gene repression. Magnetic Resonance Imaging was used to monitor development of ectopic cysts in a rat surgical model of endometriosis. SERMs and P4 significantly decreased cyst volumes comparably by approximately 60%. However, ERB-041 and asoprisnil had no effect on cyst volume, and RU486 increased cyst volume by 20%. SDF-1 expression was modestly, but significantly, increased in the cyst compared to eutopic uterus, and P4 and raloxifene could repress the expression. We showed that SDF-1 was similarly regulated in human cells. These data suggest that transcriptional regulation of SDF-1 is a surrogate marker of estrogenic activities via ERalpha in rat uterine cells, and that SDF-1 repression by PR agonists can predict the ability to oppose the actions of estrogen in vivo.

Assessment of macrophage infiltration in a murine model of abdominal aortic aneurysm.

PURPOSE: To evaluate the use of an ultrasmall superparamagnetic iron oxide (USPIO) contrast agent as a marker for the detection of macrophage in a preclinical abdominal aortic aneurysm animal (AAA) model. MATERIALS AND METHODS: Osmotic pumps were implanted subcutaneously in apoE(-/-) mice for continuous infusion of Angiotensin II (Ang-II). Weekly bright-blood gradient echo scans were performed on the suprarenal abdominal aorta to evaluate aneurysm development. Once an AAA was detected, animals were administered 1000 mumol/kg of the USPIO contrast agent ferumoxtran-10 (Combidex) followed by in vivo scanning 24 h post-USPIO administration. After in vivo imaging, aortas were harvested for ex vivo imaging, histology, iron quantification, and gene expression analysis. RESULTS: Reduced signal intensity was evident in the post-USPIO transverse images of the abdominal aorta. The areas of reduced signal were primarily along the aneurysm shoulder and outer perianeurysm areas and corresponded to regions of macrophage infiltration and colocalized USPIO determination by means of histological staining. The absolute iron content measured significantly correlated to the area of signal reduction in the ex vivo images (r = 0.9; P < 0.01). In the AAA tissue, the macrophage-driven cytokine gene expression was up-regulated along with a matrix metalloproteinase known to mediate extracellular matrix breakdown in this disease model. CONCLUSION: These results demonstrate the feasibility of using an USPIO contrast agent as a surrogate for detecting the acute inflammatory process involved in the development of abdominal aneurysms.