X-Ray Spectra of Z Sources

A simple, physically consistent model has been proposed that seeks to explain in a unified way the X-ray spectra and rapid X-ray variability of the so-called Z sources and other accreting neutron stars in low-mass systems. Here we summarize the results of detailed numerical calculations of the X-ray spectra of the Z sources predicted by this model. Our computations show that in the Z sources, photons are produced primarily by electron cyclotron emission in the neutron star magnetosphere. Comptonization of these photons by the hot central corona and radial inflow produces X-ray spectra, color-color tracks, and countrate variations like those observed in the Z sources.Comment: 6 pages, 2 Postscript figures in 4 files, uses aas2pp4.sty, submitted to ApJ (Letters) 1995 May 3

The Ursinus Weekly, October 3, 1968

Fourteen join faculty; Dept. heads named for Philos. & Economics • 227 freshmen begin studies; 3 foreign students included • Professors recognized for teaching excellence • Stained glass exhibit on display at Ursinus • Joint effort concert features Intruders • Editorial: Student activism - radical or responsible? • Frosh at Shalom; Dinks on till 12th • The illegalities of Ursinus law • The great society? • Editorial: Everyone\u27s problem • Freeland\u27s days numbered; Library to rise on site • Graduate school aspirants urged to prepare early • Forums replace required chapel • Studio art to highlight new fine arts course • Annual Parents Day planned for Oct. 12 • Franklin & Marshall passing stops Bears in season opener • Ursinus hockey squad hopes for eighth undefeated year • Baker counts on frosh to bolster soccer team • Undefeated Harriers aim for MAC title • Greek gleaningshttps://digitalcommons.ursinus.edu/weekly/1163/thumbnail.jp

Nutritional Ketosis and Mitohormesis: Potential Implications for Mitochondrial Function and Human Health

Impaired mitochondrial function often results in excessive production of reactive oxygen species (ROS) and is involved in the etiology of many chronic diseases, including cardiovascular disease, diabetes, neurodegenerative disorders, and cancer. Moderate levels of mitochondrial ROS, however, can protect against chronic disease by inducing upregulation of mitochondrial capacity and endogenous antioxidant defense. This phenomenon, referred to as mitohormesis, is induced through increased reliance on mitochondrial respiration, which can occur through diet or exercise. Nutritional ketosis is a safe and physiological metabolic state induced through a ketogenic diet low in carbohydrate and moderate in protein. Such a diet increases reliance on mitochondrial respiration and may, therefore, induce mitohormesis. Furthermore, the ketone β-hydroxybutyrate (BHB), which is elevated during nutritional ketosis to levels no greater than those resulting from fasting, acts as a signaling molecule in addition to its traditionally known role as an energy substrate. BHB signaling induces adaptations similar to mitohormesis, thereby expanding the potential benefit of nutritional ketosis beyond carbohydrate restriction. This review describes the evidence supporting enhancement of mitochondrial function and endogenous antioxidant defense in response to nutritional ketosis, as well as the potential mechanisms leading to these adaptations

Seismic imaging of the Cocos plate subduction zone system in central Mexico

Broadband data from the Meso-America Subduction Experiment (MASE) line in central Mexico were used to image the subducted Cocos plate and the overriding continental lithosphere beneath central Mexico using a generalized radon transform based migration. Our images provide insight into the process of subducting relatively young oceanic lithosphere and its complex geometry beneath continental North America. The converted and reverberated phase image shows complete horizontal tectonic underplating of the Cocos oceanic lithosphere beneath the North American continental lithosphere, with a clear image of a very thin low-velocity oceanic crust (7–8 km) which dips at 15–20 degrees at Acapulco then flattens approximately 300 km from the Middle America Trench. Farther inland the slab then appears to abruptly change from nearly horizontal to a steeply dipping geometry of approximately 75 degrees underneath the Trans-Mexican Volcanic Belt (TMVB). Where the slab bends underneath the TMVB, the migrated image depicts the transition from subducted oceanic Moho to continental Moho at ∼230 km from the coast, neither of which were clearly resolved in previous seismic images. The deeper seismic structure beneath the TMVB shows a prominent negative discontinuity (fast-to-slow) at ∼65–75 km within the upper mantle. This feature, which spans horizontally beneath the arc (∼100 km), may delineate the top of a layer of ponded partial melt

Human B cell lineages associated with germinal centers following influenza vaccination are measurably evolving

The poor efficacy of seasonal influenza virus vaccines is often attributed to pre-existing immunity interfering with the persistence and maturation of vaccine-induced B cell responses. We previously showed that a subset of vaccine-induced B cell lineages are recruited into germinal centers (GCs) following vaccination, suggesting that affinity maturation of these lineages against vaccine antigens can occur. However, it remains to be determined whether seasonal influenza vaccination stimulates additional evolution of vaccine-specific lineages, and previous work has found no significant increase in somatic hypermutation among influenza-binding lineages sampled from the blood following seasonal vaccination in humans. Here, we investigate this issue using a phylogenetic test of measurable immunoglobulin sequence evolution. We first validate this test through simulations and survey measurable evolution across multiple conditions. We find significant heterogeneity in measurable B cell evolution across conditions, with enrichment in primary response conditions such as HIV infection and early childhood development. We then show that measurable evolution following influenza vaccination is highly compartmentalized: while lineages in the blood are rarely measurably evolving following influenza vaccination, lineages containing GC B cells are frequently measurably evolving. Many of these lineages appear to derive from memory B cells. We conclude from these findings that seasonal influenza virus vaccination can stimulate additional evolution of responding B cell lineages, and imply that the poor efficacy of seasonal influenza vaccination is not due to a complete inhibition of vaccine-specific B cell evolution

Pathophysiology of renal tubular obstruction: Therapeutic role of synthetic RGD peptides in acute renal failure

In his famous work On the Natural Faculties, Galen of Pergamum introduced the idea of “attraction” [δλκηζ] as the principal mode of kidney function: the attraction of blood to the kidney, he claimed, results in the production of urine [1]. Though unproven in Galen's ancient times and entirely rejected by the later generations as a mechanistic explanation of renal function, the concept of attraction has not only survived, albeit in a modified form, but has become one of the cornerstone principles of modern physiology and our current understanding of the pathophysiology of processes as diverse as platelet aggregation, metastases, immune recognition and wound healing, to name a few, all of which are governed by adhesion molecules. Here we review the role of adhesion molecules in the pathophysiology of tubular obstruction, focusing on the integrins and their newly recognized function in it.The importance of renal tubular obstruction in the pathogenesis of acute renal failure (ARF) was brought to center stage by a series of elegant microdissection studies by Oliver, MacDowell and Tracy [2]. Using servo-null pressure monitoring of the proximal tubular pressure in diverse models of ARF, investigators have provided solid evidence for the elevation in hydrostatic intratubular pressure concomitant with the unchanged stop-flow and estimated glomerular capillary pressures, further confirming the tubulo-obstructive component of this syndrome [3–5]. It has been concluded, therefore, that tubular obstruction and elevated proximal tubular pressure equilibrate glomerular filtration pressure, thus leading to the persisting oliguria. Necrotic epithelial cells have been postulated to provide the matrix for casts obstructing the tubular lumen. Recent findings of viable epithelial cells in the urine of patients and experimental animals with ARF, however, cast doubt on the postulated schema and suggest the possibility of epithelial cell detachment as an important contributor to the development of tubular obstruction [6–8].In the following discussion we develop this theme, providing data on the possible mechanism(s) of tubular obstruction in ischemic ARF, and on the therapeutic strategies in and benefits of inhibiting tubular obstruction, and suggest some future directions of this fledgling field of investigations

Relationship between urinary calcium and calcium intake during calcitriol administration

Relationship between urinary calcium and calcium intake during calcitriol administration. The hypercalciuria that occurs when 1,25(OH)2D3 (calcitriol) is given to humans with normal renal function depends on dietary Ca absorption and may also relate, in part, to enhanced bone resorption. To evaluate the relationship between urinary and dietary Ca during treatment with calcitriol, 12 metabolic balance studies were performed in normal volunteers ingesting a diet containing 350 mg/day of Ca, to which Ca gluconate was added. After 10 days on either 350 mg/day or 1550 mg/day of Ca, calcitriol, 0.5 µg every 12hr, was given. Then diet Ca was changed in successive 5-day treatment periods from 350 to 650, 950 and 1550 mg/day (group A) or from 1550 to 950, 650 and 350 mg/day (group B). On the lowest diet Ca, urinary Ca was less than Ca intake during calcitriol treatment (group A, 220 ± 50 mg/day; group B, 247 ± 40). As diet Ca was changed during calcitriol treatment, urinary Ca correlated with diet Ca (r = 0.60) until diet Ca reached 950 mg/day. With calcitriol, serum iPTH fell by 18 to 25% (P < 0.01) and urinary hydroxyproline fell by 11 to 19% (P < 0.05 to 0.01). Baseline serum levels of 1,25(OH)2D were 47 ± 8 and 34 ± 5 pg/ml in group A and B, respectively, and the values increased to 51 ± 12 and 45 ±7.4 pg/ml during treatment with calcitriol. Serum Ca from fasted subjects was not affected by calcitriol, but the mean postabsorptive serum Ca (noon) was increased by 0.35 mg/dl. Although urine Ca/creatinine from fasted subjects increased with calcitriol treatment, the values varied directly with the 24-hr urine Ca and inversely with serum iPTH levels. Thus, dietary Ca is the major determinant of urinary Ca during treatment with calcitriol, and the latter may decrease dietary Ca requirements. There was no evidence for an increased bone resorption. The reduction of hydroxyproline excretion suggests that bone resorption was initially depressed, perhaps due to iPTH suppression. The data also suggest that urine Ca/creatinine after fasting for 12 hr is influenced by previous dietary Ca intake or intestinal Ca absorption, perhaps related to changing iPTH levels