Your search keyword '"Whitson PA"' showing total 47 results

1. Salivary endothelin and its response to postural changes in humans.

Author

Whitson, PA, primary and Chen, YM, additional

Published

1997

2. Nutrition and human physiological adaptations to space flight

Author

Lane, HW, primary, LeBlanc, AD, additional, Putcha, L, additional, and Whitson, PA, additional

Published

1993

3. Surface tension enables induced pluripotent stem cell culture in commercially available hardware during spaceflight.

Author

Mozneb M, Arzt M, Mesci P, Martin DMN, Pohlman S, Lawless G, Doraisingam S, Al Neyadi S, Barnawi R, Al Qarni A, Whitson PA, Shoffner J, Stoudemire J, Countryman S, Svendsen CN, and Sharma A

Abstract

Low Earth Orbit (LEO) has emerged as a unique environment for evaluating altered stem cell properties in microgravity. LEO has become increasingly accessible for research and development due to progress in private spaceflight. Axiom Mission 2 (Ax-2) was launched as the second all-private astronaut mission to the International Space Station (ISS). Frozen human induced pluripotent stem cells (hiPSCs) expressing green fluorescent protein (GFP) under the SOX2 promoter, as well as fibroblasts differentiated from SOX2-GFP hiPSCs, were sent to the ISS. Astronauts then thawed and seeded both cell types into commercially available 96-well plates, which provided surface tension that reduced fluid movement out of individual wells and showed that hiPSCs or hiPSC-derived fibroblasts could survive either in suspension or attached to a Matrigel substrate. Furthermore, both cell types could be transfected with red fluorescent protein (RFP)-expressing plasmid. We demonstrate that hiPSCs and hiPSC-fibroblasts can be thawed in microgravity in off-the-shelf, commercially-available cell culture hardware, can associate into 3D spheroids or grow adherently in Matrigel, and can be transfected with DNA. This lays the groundwork for future biomanufacturing experiments in space., (© 2024. The Author(s).)

Published

2024

4. Multi-scale kinetics of a field-directed colloidal phase transition.

Author

Swan JW, Vasquez PA, Whitson PA, Fincke EM, Wakata K, Magnus SH, De Winne F, Barratt MR, Agui JH, Green RD, Hall NR, Bohman DY, Bunnell CT, Gast AP, and Furst EM

Subjects

Kinetics, Magnetics, Rheology, Weightlessness, Colloids chemistry, Gels chemistry, Models, Chemical, Phase Transition

Abstract

Polarizable colloids are expected to form crystalline equilibrium phases when exposed to a steady, uniform field. However, when colloids become localized this field-induced phase transition arrests and the suspension persists indefinitely as a kinetically trapped, percolated structure. We anneal such gels formed from magneto-rheological fluids by toggling the field strength at varied frequencies. This processing allows the arrested structure to relax periodically to equilibrium--colloid-rich, cylindrical columns. Two distinct growth regimes are observed: one in which particle domains ripen through diffusive relaxation of the gel, and the other where the system-spanning structure collapses and columnar domains coalesce apparently through field-driven interactions. There is a stark boundary as a function of magnetic field strength and toggle frequency distinguishing the two regimes. These results demonstrate how kinetic barriers to a colloidal phase transition are subverted through measured, periodic variation of driving forces. Such directed assembly may be harnessed to create unique materials from dispersions of colloids.

Published

2012

5. Cardiac and vascular responses to thigh cuffs and respiratory maneuvers on crewmembers of the International Space Station.

Author

Hamilton DR, Sargsyan AE, Garcia K, Ebert DJ, Whitson PA, Feiveson AH, Alferova IV, Dulchavsky SA, Matveev VP, Bogomolov VV, and Duncan JM

Subjects

Cardiovascular System diagnostic imaging, Hemodynamics physiology, Humans, Ultrasonography, Weightlessness Countermeasures, Weightlessness Simulation methods, Adaptation, Physiological physiology, Cardiovascular System physiopathology, Respiratory System physiopathology, Space Flight, Thigh blood supply, Weightlessness

Abstract

Background: The transition to microgravity eliminates the hydrostatic gradients in the vascular system. The resulting fluid redistribution commonly manifests as facial edema, engorgement of the external neck veins, nasal congestion, and headache. This experiment examined the responses to modified Valsalva and Mueller maneuvers measured by cardiac and vascular ultrasound (ECHO) in a baseline steady state and under the influence of thigh occlusion cuffs available as a countermeasure device (Braslet cuffs)., Methods: Nine International Space Station crewmember subjects (expeditions 16-20) were examined in 15 experiment sessions 101 ± 46 days after launch (mean ± SD; 33-185). Twenty-seven cardiac and vascular parameters were obtained with/without respiratory maneuvers before and after tightening of the Braslet cuffs (162 parameter states/session). Quality of cardiac and vascular ultrasound examinations was assured through remote monitoring and guidance by investigators from the NASA Telescience Center in Houston, TX, and the Mission Control Center in Korolyov, Moscow region, Russia., Results: 14 of 81 conditions (27 parameters measured at baseline, Valsalva, and Mueller maneuver) were significantly different when the Braslet was applied. Seven of 27 parameters were found to respond differently to respiratory maneuvers depending on the presence or absence of thigh compression., Conclusions: Acute application of Braslet occlusion cuffs causes lower extremity fluid sequestration and exerts commensurate measurable effects on cardiac performance in microgravity. Ultrasound techniques to measure the hemodynamic effects of thigh cuffs in combination with respiratory maneuvers may serve as an effective tool in determining the volume status of a cardiac or hemodynamically compromised patient at the "microgravity bedside."

Published

2012

6. Effect of potassium citrate therapy on the risk of renal stone formation during spaceflight.

Author

Whitson PA, Pietrzyk RA, Jones JA, Nelman-Gonzalez M, Hudson EK, and Sams CF

Subjects

Adult, Female, Humans, Male, Risk Factors, Kidney Calculi prevention & control, Potassium Citrate therapeutic use, Space Flight

Abstract

Purpose: Exposure to microgravity affects human physiology and results in changes in urinary chemical composition during and after spaceflight, favoring an increased risk of renal stones. We assessed the efficacy of potassium citrate to decrease the stone risk during and after spaceflight., Materials and Methods: The study was done in 30 long duration spaceflight crew members to the space stations Mir and International Space Station. Before, during and after spaceflight 24-hour urine samples were collected to assess the renal stone risk. Potassium citrate (20 mEq) was ingested daily by International Space Station crew members in a double-blind, placebo controlled study. Mir crew members performed the identical protocol but did not ingest medication., Results: Potassium citrate treated crew members had decreased urinary calcium excretion and maintained the calcium oxalate supersaturation risk at preflight levels compared to that in controls. Increased urinary pH in the treatment group decreased the risk of uric acid stones., Conclusions: Results from this investigation suggest that supplementation with potassium citrate may decrease the risk of renal stone formation during and immediately after spaceflight.

Published

2009

7. Diagnostic ultrasound at MACH 20: retroperitoneal and pelvic imaging in space.

Author

Jones JA, Sargsyan AE, Barr YR, Melton S, Hamilton DR, Dulchavsky SA, and Whitson PA

Subjects

Allied Health Personnel education, Astronauts, Feasibility Studies, Humans, Image Interpretation, Computer-Assisted methods, Radiology education, Remote Consultation methods, Ultrasonography, Video Recording methods, Pelvis diagnostic imaging, Retroperitoneal Space diagnostic imaging, Space Flight, Weightlessness

Abstract

An operationally available diagnostic imaging capability augments spaceflight medical support by facilitating the diagnosis, monitoring and treatment of medical or surgical conditions, by improving medical outcomes and, thereby, by lowering medical mission impacts and the probability of crew evacuation due to medical causes. Microgravity-related physiological changes occurring during spaceflight can affect the genitourinary system and potentially cause conditions such as urinary retention or nephrolithiasis for which ultrasonography (U/S) would be a useful diagnostic tool. This study describes the first genitourinary ultrasound examination conducted in space, and evaluates image quality, frame rate, resolution requirements, real-time remote guidance of nonphysician crew medical officers and evaluation of on-orbit tools that can augment image acquisition. A nonphysician crew medical officer (CMO) astronaut, with minimal training in U/S, performed a self-examination of the genitourinary system onboard the International Space Station, using a Philips/ATL Model HDI-5000 ultrasound imaging unit located in the International Space Station Human Research Facility. The CMO was remotely guided by voice commands from experienced, earth-based sonographers stationed in Mission Control Center in Houston. The crewmember, with guidance, was able to acquire all of the target images. Real-time and still U/S images received at Mission Control Center in Houston were of sufficient quality for the images to be diagnostic for multiple potential genitourinary applications. Microgravity-based ultrasound imaging can provide diagnostic quality images of the retroperitoneum and pelvis, offering improved diagnosis and treatment for onboard medical contingencies. Successful completion of complex sonographic examinations can be obtained even with minimally trained nonphysician ultrasound operators, with the assistance of ground-based real-time guidance.

Published

2009

8. Renal stone formation among astronauts.

Author

Pietrzyk RA, Jones JA, Sams CF, and Whitson PA

Subjects

Female, Humans, Kidney Calculi etiology, Kidney Calculi urine, Male, Retrospective Studies, Risk Factors, United States, Aerospace Medicine, Astronauts, Kidney Calculi prevention & control, Space Flight, Weightlessness adverse effects

Abstract

Introduction: With the continued construction of the International Space Station, humans are living longer in the microgravity environment of space. However, many questions still exist as to the physiological effects of spaceflight on the human body. Bone loss, cardiovascular changes, and muscle atrophy are well-documented health risks to humans during spaceflight. Another potential serious health complication is the development of renal stones. The development of a renal stone may not only impact the health of the crewmember, but also the success of the mission., Methods: A retrospective analysis of astronaut data from 24-h urine samples collected prior to launch and immediately after landing was performed. Urine characteristics associated with renal stone formation were analyzed and the relative injury supersaturations of stone-forming constituents calculated., Results: In the current study, previously collected data to identify urinary factors associated with renal stone formation demonstrated an increased risk in astronauts who had actually formed a renal stone. Increased urinary supersaturation of the stone-forming salts was observed in those astronauts who formed renal stones. Similar changes in urinary supersaturation were noted among many astronauts after landing, indicating an increased postflight risk for stone formation., Conclusions: An assessment program should be undertaken to identify and evaluate astronauts with elevated risk factors prior to flight and immediately following landing. Individualized recommendations can be prescribed to astronauts and may include dietary changes, increased fluid intake, or medications to minimize the risk of stone formation.

Published

2007

9. Plasma volume restoration with salt tablets and water after bed rest prevents orthostatic hypotension and changes in supine hemodynamic and endocrine variables.

Author

Waters WW, Platts SH, Mitchell BM, Whitson PA, and Meck JV

Subjects

Adult, Aldosterone blood, Baroreflex physiology, Blood Pressure physiology, Drinking, Endocrine System physiology, Epinephrine blood, Heart Rate physiology, Humans, Hypotension, Orthostatic etiology, Male, Norepinephrine blood, Receptors, Adrenergic physiology, Renin blood, Space Flight, Stroke Volume physiology, Supine Position, Vascular Resistance physiology, Vasopressins blood, Weightlessness Simulation adverse effects, Bed Rest adverse effects, Hypotension, Orthostatic physiopathology, Hypotension, Orthostatic prevention & control, Plasma Volume physiology, Sodium Chloride administration & dosage

Abstract

Head-down bed rest changes the values of many cardiovascular and endocrine variables and also elicits significant hypovolemia. Because previous studies had not controlled for hypovolemia, it is unknown whether the reported changes were primary effects of bed rest or secondary effects of bed rest-induced hypovolemia. We hypothesized that restoring plasma volume with salt tablets and water after 12 days of head-down bed rest would result in an absence of hemodynamic and endocrine changes and a reduced incidence of orthostatic hypotension. In 10 men, we measured changes from pre-bed-rest to post-bed-rest in venous and arterial pressures; heart rate; stroke volume; cardiac output; vascular resistance; plasma norepinephrine, epinephrine, vasopressin, renin activity (PRA), and aldosterone responses to different tilt levels (0 degrees, -10 degrees, 20 degrees, 30 degrees, and 70 degrees); and plasma volume and platelet alpha2- and lymphocyte beta2-adrenoreceptor densities and affinities (0 degrees tilt only). Fluid loading at the end of bed rest restored plasma volume and resulted in the absence of post-bed-rest orthostatic hypotension and changes in supine hemodynamic and endocrine variables. Fluid loading did not prevent post-bed-rest increases in beta2-adrenoreceptor density or decreases in the aldosterone-to-PRA ratio (P = 0.05 for each). Heart rate, epinephrine, and PRA responses to upright tilt after bed rest were increased (P < 0.05), despite the fluid load. These results suggest that incidents of orthostatic hypotension and many of the changes in supine hemodynamic and endocrine variables in volume-depleted bed-rested subjects occur secondarily to the hypovolemia. Despite normovolemia after bed rest, beta2-adrenoreceptors were upregulated, and heart rate, epinephrine, and PRA responses to tilt were augmented, indicating that these changes are independent of volume depletion.

Published

2005

10. FAST at MACH 20: clinical ultrasound aboard the International Space Station.

Author

Sargsyan AE, Hamilton DR, Jones JA, Melton S, Whitson PA, Kirkpatrick AW, Martin D, and Dulchavsky SA

Subjects

Astronauts, Humans, Satellite Communications, Ultrasonography, United States, United States National Aeronautics and Space Administration, Aerospace Medicine education, Aerospace Medicine methods, Remote Consultation methods, Space Flight, Traumatology education, Traumatology methods, Wounds and Injuries diagnostic imaging

Abstract

Background: Focused assessment with sonography for trauma (FAST) examination has been proved accurate for diagnosing trauma when performed by nonradiologist physicians. Recent reports have suggested that nonphysicians also may be able to perform the FAST examination reliably. A multipurpose ultrasound system is installed on the International Space Station as a component of the Human Research Facility. Nonphysician crew members aboard the International Space Station receive modest training in hardware operation, sonographic techniques, and remotely guided scanning. This report documents the first FAST examination conducted in space, as part of the sustained effort to maintain the highest possible level of available medical care during long-duration space flight., Methods: An International Space Station crew member with minimal sonography training was remotely guided through a FAST examination by an ultrasound imaging expert from Mission Control Center using private real-time two-way audio and a private space-to-ground video downlink (7.5 frames/second). There was a 2-second satellite delay for both video and audio. To facilitate the real-time telemedical ultrasound examination, identical reference cards showing topologic reference points and hardware controls were available to both the crew member and the ground-based expert., Results: A FAST examination, including four standard abdominal windows, was completed in approximately 5.5 minutes. Following commands from the Mission Control Center-based expert, the crew member acquired all target images without difficulty. The anatomic content and fidelity of the ultrasound video were excellent and would allow clinical decision making., Conclusions: It is possible to conduct a remotely guided FAST examination with excellent clinical results and speed, even with a significantly reduced video frame rate and a 2-second communication latency. A wider application of trauma ultrasound applications for remote medicine on earth appears to be possible and warranted.

Published

2005

11. Osteoblast responsiveness to 1alpha,25-dihydroxyvitamin D3 during spaceflight.

Author

Kumei Y, Morita S, Nakamura H, Katano H, Ohya K, Shimokawa H, Sams CF, and Whitson PA

Subjects

Animals, Base Sequence, DNA Primers, Integrin-Binding Sialoprotein, Male, Osteoblasts metabolism, Osteocalcin biosynthesis, Osteocalcin genetics, Osteocalcin metabolism, Rats, Rats, Wistar, Receptors, Calcitriol biosynthesis, Receptors, Calcitriol metabolism, Sialoglycoproteins biosynthesis, Sialoglycoproteins metabolism, Weightlessness, Calcitriol pharmacology, Osteoblasts drug effects, Space Flight

Abstract

Rat osteoblasts were cultured aboard a space shuttle for 4 and 5 days. Cells were treated with 1 nM 1alpha,25-dihydroxyvitamin D(3) (VD) for the last 1 day. The conditioned media were harvested. Cells were solubilized with guanidine solution on board. We examined microgravity effects on the production/expression of osteocalcin, bone sialoprotein (BSP), and VD receptor (VD-R) in osteoblasts. Under VD treatment, the osteocalcin protein level was 243 +/- 117 and 1,718 +/- 534 pg/microg cellular DNA in flight cultures and ground controls, respectively. Without VD treatment, the osteocalcin protein level was not different between flight cultures and ground controls. The osteocalcin mRNA level in the VD-treated flight cultures was as low as 16% of that in ground controls. The VD-R mRNA level in the VD-treated flight cultures was also decreased to 16% of that in ground controls. Microgravity would suppress the VD-inducible production of osteocalcin but not the basal productivity. The BSP mRNA level was increased by microgravity. VD/VD-R binds to the vitamin D-responsive element (VDRE) on the target genes. The rat osteocalcin gene is positively regulated via "enhancer" VDRE, whereas the rat BSP gene is negatively regulated via "repressor " VDRE. Microgravity might modulate osteoblast responsiveness to VD through the suppression of VD-R.

Published

2004

12. Inhibition of HSP70 and a collagen-specific molecular chaperone (HSP47) expression in rat osteoblasts by microgravity.

Author

Kumei Y, Morita S, Shimokawa H, Ohya K, Akiyama H, Hirano M, Sams CF, and Whitson PA

Subjects

Animals, Base Sequence, Calcitriol pharmacology, Cells, Cultured, Collagen, DNA Primers, Gene Expression Regulation drug effects, HSP47 Heat-Shock Proteins, Male, Osteoblasts drug effects, RNA, Messenger genetics, Rats, Rats, Wistar, Reverse Transcriptase Polymerase Chain Reaction, Transcription, Genetic drug effects, Transcription, Genetic genetics, Transforming Growth Factor beta pharmacology, Gene Expression Regulation physiology, HSP70 Heat-Shock Proteins genetics, Heat-Shock Proteins genetics, Osteoblasts physiology, Weightlessness

Abstract

Rat osteoblasts were cultured aboard a space shuttle for 4 or 5 days. Cells were exposed to 1alpha, 25 dihydroxyvitamin D(3) during the last 20 h and then solubilized by guanidine solution. The mRNA levels for molecular chaperones were analyzed by semi-quantitative RT-PCR. ELISA was used to quantify TGF-beta1 in the conditioned medium. The HSP70 mRNA levels in the flight cultures were almost completely suppressed, as compared to the ground (1 x g) controls. The inducible HSP70 is known as the major heat shock protein that prevents stress-induced apoptosis. The mean mRNA levels for the constitutive HSC73 in the flight cultures were reduced to 69%, approximately 60% of the ground controls. HSC73 is reported to prevent the pathological state that is induced by disruption of microtubule network. The mean HSP47 mRNA levels in the flight cultures were decreased to 50% and 19% of the ground controls on the 4th and 5th days. Concomitantly, the concentration of TGF-beta1 in the conditioned medium of the flight cultures was reduced to 37% and 19% of the ground controls on the 4th and 5th days. HSP47 is the collagen-specific molecular chaperone that controls collagen processing and quality and is regulated by TGF-beta1. Microgravity differentially modulated the expression of molecular chaperones in osteoblasts, which might be involved in induction and/or prevention of osteopenia in space.

Published

2003

13. Effect of dietary sodium on fluid/electrolyte regulation during bed rest.

Author

Williams WJ, Schneider SM, Gretebeck RJ, Lane HW, Stuart CA, and Whitson PA

Subjects

Adult, Analysis of Variance, Blood Pressure drug effects, Blood Pressure physiology, Body Water physiology, Data Interpretation, Statistical, Hormones blood, Hormones urine, Humans, Male, Osmolar Concentration, Plasma Volume drug effects, Plasma Volume physiology, Sodium urine, Bed Rest, Sodium, Dietary administration & dosage, Water-Electrolyte Balance drug effects, Water-Electrolyte Balance physiology

Abstract

Background: A negative fluid balance during bed rest (BR) is accompanied by decreased plasma volume (PV) which contributes to cardiovascular deconditioning., Hypothesis: We hypothesized that increasing dietary sodium while controlling fluid intake would increase plasma osmolality (POSM), stimulate fluid conserving hormones, and reduce fluid/electrolyte (F/E) losses during BR; conversely, decreasing dietary sodium would decrease POSM, suppress fluid conserving hormones, and increase F/E losses., Methods: We controlled fluid intake (30 ml x kg(-1) x d(-1)) in 17 men who consumed either a 4.0 +/- 0.06 g x d(-1) (174 mmol x d(-1)) (CONT; n = 6), 1.0 +/- 0.02 g x d(-1) (43 mmol x d(-1)) (LS; n = 6), or 10.0 +/- 0.04 g x d(-1) (430 mmol x d(-1)) (HS; n = 5) sodium diet before, during, and after 21 d of 6 degrees head-down BR. PV, total body water, urine volume and osmolality, POSM, and F/E controlling hormone concentrations were measured., Results: In HS subjects, plasma renin activity (-92%), plasma/urinary aldosterone (-59%; -64%), and PV (-15.0%; 6.0 ml x kg(-1); p < 0.05) decreased while plasma atrial natriuretic peptide (+34%) and urine antidiuretic hormone (+24%) increased during BR (p < 0.05) compared with CONT. In LS, plasma renin activity (+166%), plasma aldosterone (+167%), plasma antidiuretic hormone (+19%), and urinary aldosterone (+335%) increased with no change in PV compared with CONT (p < 0.05). Total body water did not change in any of the subjects., Conclusions: Contrary to our hypothesis, increasing dietary sodium while controlling fluid intake during BR resulted in a greater loss of PV compared with the CONT subjects. Reducing dietary sodium while controlling fluid intake did not alter the PV response during BR compared with CONT subjects.

Published

2003

14. The risk of renal stone formation during and after long duration space flight.

Author

Whitson PA, Pietrzyk RA, Morukov BV, and Sams CF

Subjects

Adult, Calcium Oxalate urine, Calcium Phosphates urine, Citrates urine, Diet, Humans, Kidney Calculi prevention & control, Middle Aged, Nutritional Requirements, Risk Factors, Time Factors, Urine, Kidney Calculi etiology, Space Flight, Weightlessness

Abstract

Background: The formation of a renal stone during space flight may have serious negative effects on the health of the crewmember and the success of the mission. Urinary biochemical factors and the influence of dietary factors associated with renal stone development were assessed during long duration Mir Space Station missions., Methods: Twenty-four-hour urine samples were collected prior to, during and following long duration space flight. The relative urinary supersaturation of calcium oxalate, calcium phosphate (brushite), sodium urate, struvite and uric acid were determined., Results: Changes in the urinary biochemistry of crewmembers during long duration spaceflight demonstrated increases in the supersaturation of the stone-forming salts. In-flight hypercalciuria was evident in a number of individual crewmembers and 24-hour dietary fluid intake and urine volume were significantly lower. During flight, there was a significant increase in brushite supersaturation., Conclusions: These data suggest acute effects of space flight and postflight changes in the urinary biochemistry favoring increased crystallization in the urine. The effects of dietary intake, especially fluid intake, may have a significant impact on the potential for renal stone formation. Efforts are now underway to assess the efficacy of a countermeasure to mitigate the increased risk., (Copyright 2001 S. Karger AG, Basel)

Published

2001

15. Invited review: gender issues related to spaceflight: a NASA perspective.

Author

Harm DL, Jennings RT, Meck JV, Powell MR, Putcha L, Sams CP, Schneider SM, Shackelford LC, Smith SM, and Whitson PA

Subjects

Exercise physiology, Female, Humans, Male, United States, United States National Aeronautics and Space Administration, Weightlessness adverse effects, Sex Characteristics, Space Flight

Abstract

This minireview provides an overview of known and potential gender differences in physiological responses to spaceflight. The paper covers cardiovascular and exercise physiology, barophysiology and decompression sickness, renal stone risk, immunology, neurovestibular and sensorimotor function, nutrition, pharmacotherapeutics, and reproduction. Potential health and functional impacts associated with the various physiological changes during spaceflight are discussed, and areas needing additional research are highlighted. Historically, studies of physiological responses to microgravity have not been aimed at examining gender-specific differences in the astronaut population. Insufficient data exist in most of the discipline areas at this time to draw valid conclusions about gender-specific differences in astronauts, in part due to the small ratio of women to men. The only astronaut health issue for which a large enough data set exists to allow valid conclusions to be drawn about gender differences is orthostatic intolerance following shuttle missions, in which women have a significantly higher incidence of presyncope during stand tests than do men. The most common observation across disciplines is that individual differences in physiological responses within genders are usually as large as, or larger than, differences between genders. Individual characteristics usually outweigh gender differences per se.

Published

2001

16. Urine volume and its effects on renal stone risk in astronauts.

Author

Whitson PA, Pietrzyk RA, and Sams CF

Subjects

Adult, Analysis of Variance, Calcium Oxalate analysis, Extraterrestrial Environment, Humans, Kidney Calculi etiology, Kidney Calculi metabolism, Risk Factors, Urine, Astronauts, Calcium urine, Kidney Calculi prevention & control, Space Flight

Abstract

Background: Urine composition in astronauts during and immediately after spaceflight changes in ways that increase the renal stone-forming potential for calcium oxalate, calcium phosphate, and uric acid saturation. We examined the effect of urine volume on the risk of renal stone formation in 356 astronauts., Methods: Renal stone-forming risk was evaluated from 24-h urine samples collected from astronauts before and after 4- to 17-d Space Shuttle flights. Urinary chemistries were performed and the relative supersaturations of calcium oxalate, brushite, sodium urate, struvite, and uric acid saturation were calculated from the biochemical results., Results: Urinary supersaturation levels of stone-forming salts were inversely related to urinary output both before and after spaceflight. Urine volume > 2 L x d(-1) reduced the risk of renal-stone development without affecting urinary citrate concentrations as compared with the increased risk observed in those astronauts who excreted urine volumes < L x d(-1)., Conclusion: Results from this study indicate that increasing daily urinary output alone is an effective countermeasure to reduce the renal stone-forming risk immediately after spaceflight. However, increasing urinary output during flight may not be entirely effective in minimizing the potential risk of renal stone formation due to the changes in the urine chemistry in astronauts exposed to microgravity., Keywords: urine volume, spaceflight, renal calculi.

Published

2001

17. Shear stress differentially regulates PGHS-1 and PGHS-2 protein levels in human endothelial cells.

Author

McCormick SM, Whitson PA, Wu KK, and McIntire LV

Subjects

Blotting, Western, Cells, Cultured, Homeostasis, Humans, Ischemic Preconditioning methods, Stress, Mechanical, Time Factors, Umbilical Cord cytology, Endothelium, Vascular chemistry, Endothelium, Vascular cytology, Epoprostenol metabolism, Gene Expression Regulation physiology, Hemorheology, Prostaglandin-Endoperoxide Synthases analysis, Prostaglandin-Endoperoxide Synthases physiology

Abstract

The secretion of prostacyclin (PGI2) by endothelial cells is regulated by shear stress. Prostaglandin H synthase (PGHS) is considered to be a key limiting enzyme in the synthesis of PGI2 from arachidonic acid. Endothelial cells were cultured in the presence of 4, 15, or 25 dyn/cm2 shear stress using a parallel plate flow chamber to assess the effect of shear stress on both PGHS isoforms, PGHS-1 and PGHS-2. In cells exposed to 4, 15, or 25 dyn/cm2 shear stress PGHS-1 and PGHS-2 protein levels initially decreased. The decrease was followed by a sustained increase for PGHS-1 but only a transient increase for PGHS-2. The duration of the PGHS-2 increase depended on the magnitude of the shear stress. The effect of altering shear stress levels on PGHS protein levels in cells preconditioned to either 4, 15, or 25 dyn/cm2 shear stress for 48 h was also studied. Changing shear stress levels effected PGHS-2 but not PGHS-1. Increases in shear stress levels from 4 to 15 or 25 dyn/cm2 caused a decrease in PGHS-2. In contrast, decreases in shear stress levels from 15 or 25 to 4 dyn/cm2 caused PGHS-2 to increase. There was a continual decrease in PGHS-2 when the shear stress was changed from 15 to 25 or 25 to 15 dyn/cm2. In summary, the regulation of PGHS-2 by shear stress is dependent upon the magnitude of the shear stress, whereas the regulation of PGHS-1 protein levels seems to be independent of the shear stress magnitude. The regulation of PGHS-1 and PGHS-2 protein levels by shear stress indicates that these proteins play an important role in the maintenance of cardiovascular homeostasis as regulators of PGI2 production.

Published

2000

18. Effects of microgravity on urinary osteopontin.

Author

Hoyer JR, Pietrzyk RA, Liu H, and Whitson PA

Subjects

Humans, Osteopontin, Gravitation, Sialoglycoproteins urine, Space Flight, Urinary Calculi etiology

Abstract

Increased risk of renal stone formation during space flight has been linked primarily to increased calcium excretion from bone demineralization induced by space flight. Other factors contributing to increased risk include increased urinary calcium oxalate supersaturation, while urinary citrate, magnesium and volume are all decreased. The aim of this study was to increase the predictive value of stone risk profiles for crew members during space flight by evaluating the excretion of urinary protein inhibitors of calcium crystallization so that more comprehensive stone risk profiles could relate mineral saturation to the concentrations of inhibitor proteins. Levels of urinary osteopontin (uropontin) are reported in a series of 14 astronauts studied before, during, and after space flights. During space flight, a compensatory increase in uropontin excretion was not observed. However, the uropontin excretion of a majority of astronauts was increased during the period after space flight and was maximal at 2 wk after landing. The downward shift in the molecular size of uropontin observed in samples obtained during space flight was shown to result from storage at ambient temperature during flight, rather than an effect of microgravity on uropontin synthesis.

Published

1999

19. Space flight and the risk of renal stones.

Author

Whitson PA, Pietrzyk RA, and Sams CF

Subjects

Calcium Oxalate metabolism, Calcium Phosphates metabolism, Diet, Drinking, Humans, Risk Assessment, Kidney Calculi etiology, Space Flight, Urine chemistry, Weightlessness adverse effects

Abstract

Exposure to the microgravity environment results in many metabolic and physiological changes to humans. Body fluid volumes, electrolyte levels, and bone and muscle undergo changes as the human body adapts to the weightless environment. This investigation examined the role of these physiologic changes to the potentially serious consequences of renal stone formation. The influence of dietary factors on the urinary biochemistry were assessed. Data collected immediately after Space Shuttle flights indicated changes in the urine chemistry favoring an increased risk of calcium oxalate and uric acid stone formation (Whitson et al., 1993). During short term Shuttle space flights, in-flight changes observed included increased urinary calcium and decreased urine volume, pH and citrate resulting in a greater risk for calcium oxalate and calcium phosphate stone formation (Whitson et al, 1997). Results from long duration Shuttle-Mir missions followed a similar trend and demonstrated decreased fluid intake and urine volume resulting in a urinary environment saturated with the calcium stone-forming salts. The increased risk occurs rapidly upon exposure to microgravity, continues throughout the space flight and following landing.

Published

1999

20. Mathematical model to estimate risk of calcium-containing renal stones.

Author

Pietrzyk RA, Feiveson AH, and Whitson PA

Subjects

Calcium Oxalate analysis, Calcium Phosphates analysis, Humans, Linear Models, Reproducibility of Results, Risk Assessment, Space Flight, Calcium analysis, Kidney Calculi chemistry, Models, Statistical

Abstract

Background/aims: Astronauts exposed to microgravity during the course of spaceflight undergo physiologic changes that alter the urinary environment so as to increase the risk of renal stone formation. This study was undertaken to identify a simple method with which to evaluate the potential risk of renal stone development during spaceflight., Method: We used a large database of urinary risk factors obtained from 323 astronauts before and after spaceflight to generate a mathematical model with which to predict the urinary supersaturation of calcium stone forming salts., Result: This model, which involves the fewest possible analytical variables (urinary calcium, citrate, oxalate, phosphorus, and total volume), reliably and accurately predicted the urinary supersaturation of the calcium stone forming salts when compared to results obtained from a group of 6 astronauts who collected urine during flight., Conclusions: The use of this model will simplify both routine medical monitoring during spaceflight as well as the evaluation of countermeasures designed to minimize renal stone development. This model also can be used for Earth-based applications in which access to analytical resources is limited.

Published

1999

21. Spaceflight modulates insulin-like growth factor binding proteins and glucocorticoid receptor in osteoblasts.

Author

Kumei Y, Shimokawa H, Katano H, Akiyama H, Hirano M, Mukai C, Nagaoka S, Whitson PA, and Sams CF

Subjects

Animals, Cells, Cultured, DNA biosynthesis, Insulin-Like Growth Factor Binding Proteins biosynthesis, Male, Polymerase Chain Reaction, RNA, Messenger biosynthesis, Rats, Rats, Wistar, Insulin-Like Growth Factor Binding Proteins metabolism, Osteoblasts metabolism, Receptors, Glucocorticoid metabolism, Space Flight, Weightlessness adverse effects

Abstract

Rat osteoblasts were cultured for 4 or 5 days during a Space Shuttle mission. After 20-h treatment with 1alpha,25-dihydroxyvitamin D3, conditioned media were harvested and cellular DNA and/or RNA were fixed on board. The insulin-like growth factor binding protein (IGF BP)-3 levels in the media were three- and tenfold higher than in ground controls on the fourth and fifth flight days, as quantitated by Western ligand blotting and radioimmunoassay, respectively. The increased IGF BP-3 protein levels correlated with two- to threefold elevation of IGF BP-3 mRNA levels, obtained by reverse transcription-polymerase chain reaction. The IGF BP-5 mRNA levels in flight cultures were 33-69% lower than in ground controls. The IGF BP-4 mRNA levels in flight cultures were 75% lower than in ground controls on the fifth day but were not different on the fourth day. The glucocorticoid receptor mRNA levels in flight cultures were increased by three- to eightfold on the fourth and fifth days compared with levels in ground controls. These data suggest potential mechanisms underlying spaceflight-induced osteopenia.

Published

1998

22. Effect of flow on gene regulation in smooth muscle cells and macromolecular transport across endothelial cell monolayers.

Author

Mcintire LV, Wagner JE, Papadaki M, Whitson PA, and Eskin SG

Subjects

Animals, Biological Transport, Active, Blood-Brain Barrier, Capillary Permeability, Cattle, Cell Division, Cells, Cultured, Endothelium, Vascular cytology, Gene Expression Regulation, Hemorheology, Humans, Macromolecular Substances, Muscle, Smooth, Vascular cytology, Nitric Oxide biosynthesis, Nitric Oxide Synthase metabolism, Nitric Oxide Synthase Type I, Nitric Oxide Synthase Type II, Endothelium, Vascular metabolism, Muscle, Smooth, Vascular metabolism

Published

1998

23. Renal stone risk assessment during Space Shuttle flights.

Author

Whitson PA, Pietrzyk RA, and Pak CY

Subjects

Adult, Diet, Humans, Kidney Calculi metabolism, Middle Aged, Risk Assessment, Time Factors, Kidney Calculi etiology, Space Flight

Abstract

Purpose: The metabolic and environmental factors influencing renal stone formation before, during, and after Space Shuttle flights were assessed. We established the contributing roles of dietary factors in relationship to the urinary risk factors associated with renal stone formation., Materials and Methods: 24-hr. urine samples were collected prior to, during space flight, and following landing. Urinary and dietary factors associated with renal stone formation were analyzed and the relative urinary supersaturation of calcium oxalate, calcium phosphate (brushite), sodium urate, struvite and uric acid were calculated., Results: Urinary composition changed during flight to favor the crystallization of calcium-forming salts. Factors that contributed to increased potential for stone formation during space flight were significant reductions in urinary pH and increases in urinary calcium. Urinary output and citrate, a potent inhibitor of calcium-containing stones, were slightly reduced during space flight. Dietary intakes were significantly reduced for a number of variables, including fluid, energy, protein, potassium, phosphorus and magnesium., Conclusions: This is the first in-flight characterization of the renal stone forming potential in astronauts. With the examination of urinary components and nutritional factors, it was possible to determine the factors that contributed to increased risk or protected from risk. In spite of the protective components, the negative contributions to renal stone risk predominated and resulted in a urinary environment that favored the supersaturation of stone-forming salts. Dietary and pharmacologic therapies need to be assessed to minimize the potential for renal stone formation in astronauts during/after space flight.

Published

1997

24. Quantification of urinary uric acid in the presence of thymol and thimerosal by high-performance liquid chromatography.

Author

Chen Y, Pietrzyk RA, and Whitson PA

Subjects

Creatinine urine, Drug Stability, Humans, Hydrogen-Ion Concentration, Sensitivity and Specificity, Chromatography, High Pressure Liquid methods, Preservatives, Pharmaceutical, Thimerosal, Thymol, Uric Acid urine

Abstract

A high-performance liquid chromatographic method was developed as an alternative to automated enzymatic analysis of uric acid in human urine preserved with thymol and/or thimerosal. Uric acid (tR = 10 min) and creatinine (tR = 5 min) were separated and quantified during isocratic elution (0.025 M acetate buffer, pH 4.5) from a mu Bondapak C18 column. The uric-acid peak was identified chemically by incubating urine samples with uricase. The thymol/thimerosal peak appeared at 31 min during the washing step and did not interfere with the analysis. We validated the high-performance liquid chromatographic method for linearity, precision and accuracy, and the results were found to be excellent.

Published

1997

25. Subnormal norepinephrine release relates to presyncope in astronauts after spaceflight.

Author

Fritsch-Yelle JM, Whitson PA, Bondar RL, and Brown TE

Subjects

Adult, Blood Pressure physiology, Female, Heart Rate physiology, Hemodynamics physiology, Humans, Hypotension, Orthostatic physiopathology, Male, Posture physiology, Tilt-Table Test, Vascular Resistance physiology, Norepinephrine metabolism, Space Flight, Syncope, Vasovagal metabolism

Abstract

Postflight orthostatic intolerance is experienced by virtually all astronauts but differs greatly in degree of severity. We studied cardiovascular responses to upright posture in 40 astronauts before and after spaceflights lasting up to 16 days. We separated individuals according to their ability to remain standing without assistance for 10 min on landing day. Astronauts who could not remain standing on landing day had significantly smaller increases in plasma norepinephrine levels with standing than did those who could remain standing (105 +/- 41 vs. 340 +/- 62 pg/ml; P = 0.05). In addition, they had significantly lower standing peripheral vascular resistance (23 +/- 3 vs. 34 +/- 3 mmHg.1l-1).min; P = 0.02) and greater decreases in systolic (-28 +/- 4 vs. -11 +/- 3 mmHg; P = 0.002) and diastolic (-14 +/- 7 vs. 3 +/- 2 mmHg; P = 0.0003) pressures. The presyncopal group also had significantly lower supine (16 +/- 1 vs. 21 +/- 2 mmHg.1l-1).min; P = 0.04) and standing (23 +/- 2 vs. 32 +/- 2 mmHg.1l-1).min; P = 0.038) vascular resistance, supine (66 +/- 2 vs. 73 +/- 2 mmHg; P = 0.008) and standing (69 +/- 4 vs. 77 +/- 2 mmHg; P = 0.007) diastolic pressure, and supine (109 +/- 3 vs. 114 +/- 2 mmHg; P = 0.05) and standing (99 +/- 4 vs. 108 +/- 3 mmHg; P = 0.006) systolic pressures before flight. This is the first study to clearly document these differences among presyncopal and nonpresyncopal astronauts after spaceflight and also offer the possibility of preflight prediction of postflight susceptibility. These results clearly point to hypoadrenergic responsiveness, possibly centrally mediated, as a contributing factor in postflight orthostatic intolerance. They may provide insights into autonomic dysfunction in Earthbound patients.

Published

1996

26. Microgravity induces prostaglandin E2 and interleukin-6 production in normal rat osteoblasts: role in bone demineralization.

Author

Kumei Y, Shimokawa H, Katano H, Hara E, Akiyama H, Hirano M, Mukai C, Nagaoka S, Whitson PA, and Sams CF

Subjects

Animals, Base Sequence, Biotechnology instrumentation, Bone Density, Bone Resorption genetics, Bone Resorption metabolism, Cells, Cultured, DNA Primers genetics, Humans, Interleukin-6 genetics, Polymerase Chain Reaction, Prostaglandin-Endoperoxide Synthases genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Bone Resorption etiology, Dinoprostone biosynthesis, Interleukin-6 biosynthesis, Osteoblasts metabolism, Space Flight instrumentation, Weightlessness adverse effects

Abstract

It has been suggested that microgravity alters bone metabolism. Evidence for this phenomenon includes the negative calcium balance and decreased bone density in astronauts, as well as, inhibition of bone formation in rats flown for 2 to 3 weeks. However, the specific mechanisms that modulate these changes in microgravity are unknown. The purpose of this study was to clarify the mechanism of microgravity-induced bone demineralization using normal rat osteoblasts obtained from femur marrow cultures. The osteoblasts were cultured for 5 days during a Shuttle-Spacelab flight (STS-65). After collection of the culture medium, the cellular DNA and RNA were fixed on board. Enzyme-immunoassay of the culture medium for prostaglandin E2 (PGE2) indicated that microgravity induced a 4.5- to 136-fold increase in flight samples as compared to the ground control cultures. This increase of PGE2 production was consistent with a 3.3- to 9.5-fold elevation of inducible prostaglandin G/H synthase-2 (PGHS-2) mRNA, quantitated by reverse transcription-polymerase chain reaction (RT-PCR). The mRNA induction for the constitutive isozyme PGHS-1 was less than that for PGHS-2. The interleukin-6 (IL-6) mRNA was also increased (6.4- to 9.3-fold) in microgravity as compared to the ground controls. Since PGE2 and IL-6 are both known to play a role in osteoclast formation and bone resorption, these data provide molecular mechanisms that contribute to our understanding of microgravity-induced alterations in the bone resorption process.

Published

1996

27. Clinical and biochemical presentation of gouty diathesis: comparison of uric acid versus pure calcium stone formation.

Author

Khatchadourian J, Preminger GM, Whitson PA, Adams-Huet B, and Pak CY

Subjects

Adult, Age Distribution, Alkalies metabolism, Body Mass Index, Chemical Phenomena, Chemistry, Physical, Disease Susceptibility, Female, Gout etiology, Humans, Hydrogen-Ion Concentration, Intestinal Absorption, Kidney Calculi complications, Male, Middle Aged, Retrospective Studies, Sex Distribution, Calcium analysis, Gout metabolism, Kidney Calculi chemistry, Uric Acid analysis

Abstract

Purpose: We compared gouty diathesis with uric acid versus calcium stones., Materials and Methods: We retrospectively reviewed clinical and laboratory data from 95 gouty diathesis patients (28 with uric acid and 67 with calcium stones) and 99 normal subjects., Results: Of the gouty diathesis patients gouty arthritis was present in 21% of those with uric acid and 12% of those with calcium stones. Hyperuricemia developed in 43% of those with uric acid and 27% of those with calcium stones, and 2% of controls. Urinary pH was independent of the net gastrointestinal absorption of alkali in the gouty diathesis groups. Urinary pH and citrate increased after potassium citrate treatment., Conclusions: The characteristic features of primary gout were present in both gouty diathesis groups and both are responsive to treatment.

Published

1995

28. Changes in sympathoadrenal response to standing in humans after spaceflight.

Author

Whitson PA, Charles JB, Williams WJ, and Cintrón NM

Subjects

Adult, Aldosterone blood, Blood Pressure physiology, Body Weight physiology, Cardiac Output physiology, Catecholamines blood, Electrocardiography, Female, Heart Rate physiology, Hematocrit, Hemodynamics physiology, Humans, Male, Middle Aged, Renin blood, Stroke Volume physiology, Adrenal Glands physiology, Posture physiology, Space Flight, Sympathetic Nervous System physiology

Abstract

Plasma catecholamine levels and cardiovascular responses to standing were determined in astronauts before and after several Space Shuttle missions. Blood pressure, heart rate, and cardiac output were measured and blood samples for catecholamine analyses were drawn at the end of the supine and standing periods. Supine plasma norepinephrine and epinephrine concentrations increased 34 and 65%, respectively, on landing day compared with before flight. Standing on landing day resulted in a 65 and 91% increase in plasma norepinephrine and epinephrine, respectively. Supine and standing norepinephrine levels remained elevated 3 days after landing while epinephrine levels returned to preflight levels. On landing day, supine heart rate and systolic blood pressure increased 18 and 8.9%, respectively, and standing heart rate and diastolic blood pressure were elevated by 38 and 19%, respectively. On standing, stroke volume was decreased by 26% on landing day compared with before flight. Collectively, these data indicate that the decreased orthostatic function after spaceflight results largely from the decreased stroke volume. Possible mechanisms contributing to this condition are discussed.

Published

1995

29. Melatonin and cortisol assessment of circadian shifts in astronauts before flight.

Author

Whitson PA, Putcha L, Chen YM, and Baker E

Subjects

Astronauts, Female, Humans, Hydrocortisone urine, Light, Male, Melatonin analogs & derivatives, Melatonin urine, Pineal Gland physiology, Radioimmunoassay, Saliva metabolism, Sleep, Space Flight, Circadian Rhythm physiology, Hydrocortisone metabolism, Melatonin metabolism

Abstract

Melatonin and cortisol were measured in saliva and urine samples to assess the effectiveness of a 7-day protocol combining bright-light exposure with sleep shifting in eliciting a 12-hr phase-shift delay in eight U.S. Space Shuttle astronauts before launch. Baseline acrophases for 15 control subjects with normal sleep-wake cycles were as follows: cortisol (saliva) at 0700 (0730 in urine); melatonin (saliva) at 0130 (6-hydroxymelatonin sulfate at 0230 in urine). Acrophases of the astronaut group fell within 2.5 hr of these values before the treatment protocols were begun. During the bright-light and sleep-shifting treatments, both absolute melatonin production and melatonin rhythmicity were diminished during the first 3 treatment days; total daily cortisol levels remained constant throughout the treatment. By the fourth to sixth day of the 7-day protocol, seven of the eight crew members showed phase delays in all four measures that fell within 2 hr of the expected 11- to 12-hr shift. Although cortisol and melatonin rhythms each corresponded with the phase shift, the rhythms in these two hormones did not correspond with each other during the transition.

Published

1995

30. Acute effects of head-down tilt and hypoxia on modulators of fluid homeostasis.

Author

Whitson PA, Cintron NM, Pietrzyk RA, Scotto P, and Loeppky JA

Subjects

Adult, Aldosterone blood, Atrial Natriuretic Factor blood, Cyclic AMP blood, Cyclic GMP blood, Head physiology, Humans, Hypoxia complications, Male, Renin blood, Body Fluids physiology, Homeostasis, Hormones blood, Hypoxia physiopathology, Posture

Abstract

In an effort to understand the interaction between acute postural fluid shifts and hypoxia on hormonal regulation of fluid homeostasis, the authors measured the responses to head-down tilt with and without acute exposure to normobaric hypoxia. Plasma atrial natriuretic peptide (ANP), cyclic guanosine monophosphate (cGMP), cyclic adenosine monophosphate (cAMP), plasma aldosterone (ALD), and plasma renin activity (PRA) were measured in six healthy male volunteers who were exposed to a head-down tilt protocol during normoxia and hypoxia. The tilt protocol consisted of a 17 degrees head-up phase (30 minutes), a 28 degrees head-down phase (1 hour), and a 17 degrees head-up recovery period (2 hours, with the last hour normoxic in both experiments). Altitude equivalent to 14,828 ft was simulated by having the subjects breathe an inspired gas mixture with 13.9% oxygen. The results indicate that the postural fluid redistribution associated with a 60-minute head-down tilt induces the release of ANP and cGMP during both hypoxia and normoxia. Hypoxia increased cGMP, cAMP, ALD, and PRA throughout the protocol and significantly potentiated the increase in cGMP during head-down tilt. Hypoxia had no overall effect on the release of ANP, but appeared to attenuate the increase with head-down tilt. This study describes the acute effects of hypoxia on the endocrine response during fluid redistribution and suggests that the magnitude, but not the direction, of these changes with posture is affected by hypoxia.

Published

1994

31. Human cardiovascular response to sympathomimetic agents during head-down bed rest: the effect of dietary sodium.

Author

Williams WJ, Stuart CA, Fortney SM, Pietrzyk RA, Chen YM, and Whitson PA

Subjects

Adult, Aldosterone metabolism, Atrial Natriuretic Factor drug effects, Head-Down Tilt physiology, Humans, Isoproterenol pharmacology, Male, Middle Aged, Phenylephrine pharmacology, Renin drug effects, Vasopressins drug effects, Weightlessness Simulation, Bed Rest, Hemodynamics drug effects, Sodium, Dietary adverse effects, Sympathomimetics pharmacology, Water-Electrolyte Balance physiology

Abstract

Changes in sympathoadrenal function and cardiovascular deconditioning have long been recognized as a feature of the physiological adaptation to microgravity. The deconditioning process, coupled with altered hydration status, is thought to significantly contribute to orthostatic intolerance upon return to Earth gravity. The cardiovascular response to stimulation by sympathomimetic agents before, during, and after exposure to simulated microgravity was determined in healthy volunteers equilibrated on normal or high sodium diets in order to further the understanding of the deconditioning process.

Published

1994

32. Hypergravity signal transduction and gene expression in cultured mammalian cells.

Author

Kumei Y and Whitson PA

Subjects

Cell Cycle physiology, Cell Division physiology, Centrifugation, Cyclic AMP metabolism, Genes, myc genetics, HeLa Cells metabolism, Humans, Inositol 1,4,5-Trisphosphate metabolism, Phosphorylation, Thymidine pharmacokinetics, Tumor Cells, Cultured, Gene Expression physiology, HeLa Cells cytology, HeLa Cells physiology, Hypergravity, Signal Transduction physiology

Abstract

A number of studies have been conducted during space flight and with clinostats and centrifuges, suggesting that gravity effects the proliferation and differentiation of mammalian cells in vitro. However, little is known about the mechanisms by which mammalian cells respond to changes in gravitational stress. This paper summarizes studies designed to clarify the effects of hypergravity on the cultured human HeLa cells and to investigate the mechanism of hypergravity signal transduction in these cells.

Published

1994

33. Alterations in renal stone risk factors after space flight.

Author

Whitson PA, Pietrzyk RA, Pak CY, and Cintrón NM

Subjects

Adult, Chemical Phenomena, Chemistry, Physical, Extraterrestrial Environment, Female, Humans, Kidney Calculi metabolism, Male, Middle Aged, Risk Factors, Sex Factors, Time Factors, Kidney Calculi etiology, Space Flight

Abstract

Exposure to the microgravity environment of space produces a number of physiological changes of metabolic and environmental origin that could increase the potential for renal stone formation. Metabolic, environmental and physicochemical factors that influence renal stone risk potential were examined in 24-hour urine samples from astronauts 10 days before launch and on landing day to provide an immediate postflight assessment of these factors. In addition, comparisons were made between male and female crewmembers, and between crewmembers on missions of less than 6 days and those on 6 to 10-day missions. Results suggest that immediately after space flight the risk of calcium oxalate and uric acid stone formation is increased as a result of metabolic (hypercalciuria, hypocitraturia, pH) and environmental (lower urine volume) derangements, some of which could reflect residual effects of having been exposed to microgravity.

Published

1993

34. Characterization of atrial natriuretic peptide degradation by cell-surface peptidase activity on endothelial cells.

Author

Frost SJ and Whitson PA

Subjects

Amino Acid Sequence, Animals, Cattle, Cell Line, Chromatography, High Pressure Liquid, Endothelium, Vascular cytology, Humans, Hydrogen-Ion Concentration, Kinetics, Molecular Sequence Data, Protease Inhibitors pharmacology, Sequence Homology, Amino Acid, Substrate Specificity, Atrial Natriuretic Factor metabolism, Cell Membrane enzymology, Endopeptidases metabolism, Endothelium, Vascular metabolism

Abstract

Atrial natriuretic peptide (ANP) is a fluid-regulating peptide hormone that promotes vasorelaxation, natriuresis, and diuresis. The mechanisms for the release of ANP and for its clearance from the circulation play important roles in modulating its biological effects. Recently, we have reported that the cell surface of an endothelial cell line, CPA47, could degrade 125I-ANP in the presence of EDTA. In this study, we have characterized this degradation of 125I-ANP. The kinetics of ANP degradation by the surface of CPA47 cells were first order, with a Km of 320 +/- 60 nM and Vmax of 35 +/- 14 pmol of ANP degraded/10 min/10(5) cells at pH 7.4. ANP is degraded by the surface of CPA47 cells over a broad pH range from 7.0-8.5. Potato carboxypeptidase inhibitor and bestatin inhibited 125I-ANP degradation, suggesting that this degradative activity on the surface of CPA47 cells has exopeptidase characteristics. The selectivity of CPA47 cell-surface degradation of ANP was demonstrated when 125I-ANP degradation was inhibited in the presence of neuropeptide Y and angiotensin I and II but not bradykinin, bombesin, endothelin-1, or substance P. The C-terminal amino acids phe26 and tyr28 were deduced to be important for ANP interaction with the cell-surface peptidase(s) based on comparison of the IC50 of various ANP analogues and other natriuretic peptides for the inhibition of ANP degradation. These data suggest that a newly characterized divalent cation-independent exopeptidase(s) that selectively recognizes ANP and some other vasoactive peptides exists on the surface of endothelial cells.

Published

1993

35. Atrial natriuretic peptide degradation by CPA47 cells: evidence for a divalent cation-independent cell-surface proteolytic activity.

Author

Frost SJ, Chen YM, and Whitson PA

Subjects

Cations, Divalent, Cells, Cultured, Chromatography, High Pressure Liquid, Edetic Acid, Humans, Hydrolysis, Iodine Radioisotopes, Kinetics, Neprilysin metabolism, Osmolar Concentration, Receptors, Atrial Natriuretic Factor metabolism, Atrial Natriuretic Factor metabolism

Abstract

Atrial natriuretic peptide (ANP) is rapidly cleared and degraded in vivo. Nonguanylate-cyclase receptors (C-ANPR) and a metalloproteinase, neutral endopeptidase (EC 3.4.24.11) (NEP 24.11), are thought to be responsible for its metabolism. We investigated the mechanisms of ANP degradation by an endothelial-derived cell line, CPA47. CPA47 cells degraded 88% of 125I-ANP after 1 h at 37 degrees C as determined by HPLC. Medium preconditioned by these cells degraded 41% of the 125I-ANP, and this activity was inhibited by a divalent cation chelator, EDTA. Furthermore, a cell-surface proteolytic activity degraded 125I-ANP in the presence of EDTA when receptor-mediated endocytosis was inhibited either by low temperature (4 degrees C) or by hyperosmolarity at 37 degrees C. The metalloproteinase, NEP 24.11, is unlikely to be the cell-surface peptidase because 125I-ANP is degraded by CPA47 cells at 4 degrees C in the presence of 5 mM EDTA. These data indicate that CPA47 cells can degrade ANP by a novel divalent cation-independent cell-surface proteolytic activity.

Published

1992

36. Long-term storage of salivary cortisol samples at room temperature.

Author

Chen YM, Cintrón NM, and Whitson PA

Subjects

Drug Stability, Humans, Temperature, Hydrocortisone analysis, Preservation, Biological, Saliva chemistry

Published

1992

37. Hypergravity signal transduction in HeLa cells with concomitant phosphorylation of proteins immunoprecipitated with anti-microtubule-associated protein antibodies.

Author

Kumei Y, Whitson PA, Sato A, and Cintrón NM

Subjects

1-Methyl-3-isobutylxanthine pharmacology, Antibodies, Monoclonal, Centrifugation, Cyclic AMP metabolism, HeLa Cells, Humans, Inositol 1,4,5-Trisphosphate metabolism, Phosphoproteins isolation & purification, Phosphorylation, Precipitin Tests, Signal Transduction drug effects, Gravitation, Microtubule-Associated Proteins metabolism, Phosphoproteins metabolism, Signal Transduction physiology

Abstract

We have shown that hypergravity (35g) stimulates production of inositol 1,4,5-trisphosphate (IP3) and decreases adenosine 3',5'-cyclic monophosphate (cAMP) levels in HeLa cells. IP3 production rapidly increased 1.5- and 2.1-fold greater (P less than 0.05) than the control after 2- and 5-min exposures to 35g, respectively. The intracellular cAMP levels, determined in the presence of isobutylmethylxanthine, were decreased by 11% (P less than 0.05) and 16% (P less than 0.01) relative to the control after 10- and 20-min exposures to 35g, respectively. The phosphorylation of proteins which were immunoprecipitated by antibodies recognizing microtubule-associated proteins (ipMAPs) was also apparent after exposure of these cells to hypergravity. In the detergent-insoluble fraction, phosphorylation of a 115-kDa protein was significantly enhanced compared to the control after a 5-min exposure to 35g. In the detergent-soluble fraction, phosphorylation of a 200-kDa protein was observed served after a 20-min exposure to 35g. Our study suggests that IP3 and cAMP may act as second messengers in hypergravity signal transduction. Phosphorylation of ipMAPs in both the detergent-soluble and -insoluble fractions suggests that cytoskeletal structures may be influenced by gravity.

Published

1991

38. Characterization of atrial natriuretic peptide receptors in brain microvessel endothelial cells.

Author

Whitson PA, Huls MH, and Sams CF

Subjects

Affinity Labels, Animals, Binding, Competitive, Brain blood supply, Cattle, Cells, Cultured, Cross-Linking Reagents, Cyclic GMP metabolism, Microcirculation metabolism, Natriuretic Peptide, Brain, Nerve Tissue Proteins metabolism, Peptide Fragments metabolism, Receptors, Atrial Natriuretic Factor, Atrial Natriuretic Factor metabolism, Blood-Brain Barrier physiology, Endothelium, Vascular chemistry, Receptors, Cell Surface analysis

Abstract

Atrial natriuretic peptide (ANP) binding and ANP-induced increases in cyclic guanosine monophosphate (cGMP) levels have been observed in brain microvessels (Chabrier et al., 1987; Steardo and Nathanson, 1987), suggesting that this fluid-regulating hormone may play a role in the fluid homeostasis of the brain. This study was initiated to characterize the ANP receptors in primary cultures of brain microvessel endothelial cells (BMECs). The apparent equilibrium dissociation constant, Kd, for ANP increased from 0.25 nM to 2.5 nM, and the number of ANP binding sites as determined by Scatchard analysis increased from 7,100 to 170,000 sites/cell between 2 and 10 days of culture following monolayer formation. Time- and concentration-dependent studies on the stimulation of cGMP levels by ANP indicated that guanylate cyclase-linked ANP receptors were present in BMECs. The relative abilities of ANP, brain natriuretic peptide (BNP), and a truncated analog of ANP containing amino acids 5-27 (ANP 5-27) to modulate the accumulation of cGMP was found to be ANP greater than BNP much greater than ANP 5-27. Affinity cross-linking with disuccinimidyl suberate and radiolabeled ANP followed by gel electrophoresis under reducing conditions demonstrated a single band corresponding to the 60-70 kD receptor, indicating the presence of the nonguanylate cyclase-linked ANP receptor. Radiolabeled ANP binding was examined in the presence of various concentrations of either ANP, BNP, or ANP 5-27 and suggested that a large proportion of the ANP receptors present in blood-brain barrier endothelial cells bind all of these ligands similarly. These data indicate both guanylate cyclase linked and nonguanylate cyclase linked receptors are present on BMECs and that a higher proportion of the nonguanylate cyclase linked receptors is expressed. This in vitro culture system may provide a valuable tool for the examination of ANP receptor expression and function in blood-brain barrier endothelial cells.

Published

1991

39. Immunoreactive prohormone atrial natriuretic peptides 1-30 and 31-67; existence of a single circulating amino-terminal peptide.

Author

Chen YM, Whitson PA, and Cintrón NM

Subjects

Chromatography, High Pressure Liquid, Cross Reactions, Humans, Peptides chemical synthesis, Peptides immunology, Radioimmunoassay, Atrial Natriuretic Factor immunology, Protein Precursors immunology

Abstract

Sep-Pak C18 extraction of human plasma and radioimmunoassay using antibodies which recognize atrial natriuretic peptide (99-128) and the prohormone sequences 1-30 and 31-67 resulted in mean values from 20 normal subjects of 26.2 (+/- 9.2), 362 (+/- 173) and 368 (+/- 160) pg/ml, respectively. A high correlation coefficient between values obtained using antibodies recognizing prohormone sequences 1-30 and 31-67 was observed (R = 0.84). Extracted plasma immunoreactivity of 1-30 and 31-67 both eluted at 46% acetonitrile. In contrast, chromatographic elution of synthetic peptides 1-30 and 31-67 was observed at 48 and 39% acetonitrile, respectively. Data suggest that the radioimmunoassay of plasma using antibodies recognizing prohormone sequences 1-30 and 31-67 may represent the measurement of a unique larger amino-terminal peptide fragment containing antigenic sites recognized by both antisera.

Published

1990

40. Trinitrobenzenesulfonate modification of the lysine residues in lactose repressor protein.

Author

Whitson PA, Burgum AA, and Matthews KS

Subjects

Chromatography, High Pressure Liquid, DNA metabolism, Escherichia coli analysis, Isopropyl Thiogalactoside pharmacology, Lac Operon, Peptide Fragments, Protein Conformation, Structure-Activity Relationship, Lysine, Nitrobenzenes pharmacology, Repressor Proteins metabolism, Transcription Factors metabolism, Trinitrobenzenesulfonic Acid pharmacology

Abstract

Modification of the lysine residues in the lactose repressor protein has been carried out with trinitrobenzenesulfonate. Reaction of lysine residues at positions 33, 37, 108, 290, and 327 was observed. Inducer binding was increased by modification with this reagent, while both nonspecific DNA binding and operator DNA binding were diminished, although to differing degrees. The loss in operator DNA binding capacity was complete with modification of approximately 2 equiv of lysine per monomer. The extent of reaction was affected by the presence of both sugar and DNA ligands; binding activities of the modified protein and reaction pattern of the lysines were perturbed by these ligands. The presence of operator or nonspecific DNA during the reaction protected against specific and nonspecific DNA binding activity loss. This protection presumably occurs by steric restriction of reagent access to lysine residues which are essential for both nonspecific and operator binding interactions. Lysines-33 and -108 were protected from modification in the presence of DNA. These experiments suggest that the charge on the lysine residues is important for protein interaction with DNA and that steric constraints for operator DNA interaction with the protein are more restrictive than for nonspecific DNA binding. In contrast, inducer (isopropyl beta-D-thiogalactoside) presence partially protected lysine-290 from modification while significantly enhancing reaction at lysine-327. Conformational alterations consequent to inducer binding are apparently reflected in these altered lysine reactivities.

Published

1984

41. Chemical modification of arginine residues in the lactose repressor.

Author

Whitson PA and Matthews KS

Subjects

DNA metabolism, Escherichia coli metabolism, Hydrogen-Ion Concentration, Kinetics, Aldehydes pharmacology, Arginine, Butanones pharmacology, Diacetyl pharmacology, Phenylglyoxal pharmacology, Repressor Proteins metabolism, Transcription Factors metabolism

Abstract

The lactose repressor protein was chemically modified with 2,3-butanedione and phenylglyoxal. Arginine reaction was quantitated by either amino acid analysis or incorporation of 14C-labeled phenylglyoxal. Inducer binding activity was unaffected by the modification of arginine residues, while both operator and nonspecific DNA binding activities were diminished, although to differing degrees. The correlation of the decrease in DNA binding activities with the modification of approximately 1-2 equiv of arginine per monomer suggests increased reactivity of a functionally essential residue(s). For both reagents, operator DNA binding activity was protected by the presence of calf thymus DNA, and the extent of reaction with phenylglyoxal was simultaneously diminished. This protection presumably results from steric restriction of reagent access to an arginine(s) that is (are) essential for DNA binding interactions. These experiments suggest that there is (are) an essential reactive arginine(s) critical for repressor binding to DNA.

Published

1987

42. Supercoiling facilitates lac operator-repressor-pseudooperator interactions.

Author

Whitson PA, Hsieh WT, Wells RD, and Matthews KS

Subjects

DNA, Bacterial analysis, Escherichia coli, Kinetics, Nucleic Acid Conformation, Potassium Chloride pharmacology, DNA, Superhelical analysis, Lac Operon, Repressor Proteins metabolism, Transcription Factors metabolism

Abstract

The binding affinity of the Escherichia coli lactose repressor to operator-containing plasmids was increased by negative supercoiling of the DNA. The increased affinities observed were dependent on the sequence context of the DNA as well as the degree of supercoiling. Dissociation rate constants for plasmids containing a single operator site decreased as a function of the negative supercoil density. However, the presence of pseudooperators in the plasmid DNA in addition to the primary operator sequence resulted in a significant decrease in the operator-plasmid dissociation rate at higher negative supercoil densities. Approximately eight ionic interactions were determined for both the supercoiled plasmids and the linear DNAs examined. These results suggest that the stabilization provided by the topology of supercoiled DNA affects the nonionic component of the protein-DNA interaction. The ability to form a ternary complex of protein with two DNA segments is increased by the presence of multiple operator-like sites on the DNA. Furthermore, supercoiling DNA with multiple operator-like sequences profoundly diminishes the dissociation rate and results in a remarkably stable ternary, presumably looped complex (t1/2 approximately 28 h). These data suggest a critical role in vivo for DNA topology and pseudooperator(s) in transcriptional regulation of the lac operon.

Published

1987

43. Influence of supercoiling and sequence context on operator DNA binding with lac repressor.

Author

Whitson PA, Hsieh WT, Wells RD, and Matthews KS

Subjects

Base Sequence, Gene Expression Regulation, Kinetics, Plasmids, Potassium Chloride pharmacology, DNA, Superhelical, Lac Operon, Nucleic Acid Conformation, Repressor Proteins metabolism, Transcription Factors metabolism

Abstract

The dissociation of the repressor-operator complex from a series of negatively supercoiled plasmid DNAs was examined as a function of the sequence context, orientation, and spacing. The plasmids were grouped into four classes, each with common sequence context. The highest dissociation rate constants were observed for the plasmids containing only a single operator (or pseudooperator) sequence, while approximately 10-fold lower rate constants were measured for plasmids with the I gene pseudooperator in conjunction with either the Z gene pseudooperator or the primary operator. Comparison of the behavior of these two classes of plasmids demonstrated the importance of two operator sequences and supported a model of DNA loop formation to stabilize the repressor-operator complex (Whitson, P. A., and Matthews, K. S. (1986) Biochemistry 25, 3845-3852; Whitson, P. A., Olson, J. S., and Matthews, K. S. (1986) Biochemistry 25, 3852-3858; Whitson, P. A., Hsieh, W. T., Wells, R. D., and Matthews, K. S. (1987) J. Biol. Chem. 262, 4943-4946; Krämer, H., Niemöller, M., Amouyal, M., Revet, B., von Wilcken-Bergmann, B., and Müller-Hill, B. (1987) EMBO J. 6, 1481-1491). The third class, with intermediate dissociation rate constants, was comprised of plasmids which contained the primary operator and the higher affinity pseudooperator normally located in the Z gene. Neither the additional presence of the I gene pseudooperator nor the orientation of the primary operator relative to the Z gene pseudooperator significantly affected the dissociation rate constants. The binding characteristics of this group of plasmids demonstrated the essential role of the Z gene pseudooperator in the formation of intramolecular ternary complex and suggested an in vivo function for this pseudooperator. Plasmids containing two primary operator sequences were the class with lowest dissociation rate constants from lac repressor, and minimal effects of salt or spacing on dissociation of this class were observed. These data are consistent with formation of an intramolecular complex with a looped DNA segment stabilized by the combination of increased local concentration of binding sites and torsional stresses on the DNA which favor binding in supercoiled DNA.

Published

1987

44. Dissociation of the lactose repressor-operator DNA complex: effects of size and sequence context of operator-containing DNA.

Author

Whitson PA and Matthews KS

Subjects

Base Sequence, Escherichia coli metabolism, Kinetics, Molecular Weight, Osmolar Concentration, Potassium Chloride pharmacology, Protein Binding, Protein Biosynthesis, DNA, Bacterial metabolism, Escherichia coli genetics, Operator Regions, Genetic, Repressor Proteins metabolism, Transcription Factors metabolism

Abstract

The dissociation kinetics for repressor-32P-labeled operator DNA have been examined by adding unlabeled operator DNA to trap released repressor or by adding a small volume of concentrated salt solution to shift the Kd of repressor-operator interaction. The dissociation rate constant for pLA 322-8, an operator-containing derivative of pBR 322, was 2.4 X 10(-3) s-1 in 0.15 M KCl. The dissociation rate constant at 0.15 M KCl for both lambda plac and pIQ, each of which contain two pseudooperator sequences, was approximately 6 X 10(-4) s-1. Elimination of flanking nonspecific DNA sequences by use of a 40 base pair operator-containing DNA fragment yielded a dissociation rate constant of 9.3 X 10(-3) s-1. The size and salt dependences of the rate constants suggest that dissociation occurs as a multistep process. The data for all the DNAs examined are consistent with a sliding mechanism of facilitated diffusion to/from the operator site. The ability to form a ternary complex of two operators per repressor, determined by stoichiometry measurements, and the diminished dissociation rates in the presence of intramolecular nonspecific and pseudooperator DNA sites suggest the formation of an intramolecular ternary complex. The salt dependence of the dissociation rate constant for pLA 322-8 at high salt concentrations converges with that for a 40 base pair operator. The similarity in dissociation rate constants for pLA 322-8 and a 40 base pair operator fragment under these conditions indicates a common dissociation mechanism from a primary operator site on the repressor.

Published

1986

45. Dexamethasone effects on creatine kinase activity and insulin-like growth factor receptors in cultured muscle cells.

Author

Whitson PA, Stuart CA, Huls MH, Sams CF, and Cintron NM

Subjects

Alanine Transaminase analysis, Animals, Aspartate Aminotransferases analysis, Cell Differentiation, Cell Line, Cells, Cultured, Creatine Kinase analysis, Dose-Response Relationship, Drug, Electrophoresis, Polyacrylamide Gel, Insulin pharmacology, Muscles drug effects, Rats, Receptors, Somatomedin, Time Factors, Creatine Kinase metabolism, Dexamethasone pharmacology, Muscles metabolism, Receptors, Cell Surface metabolism

Abstract

We examined the effects of dexamethasone on creatine kinase (CK) activity and insulin-like growth factor I (IGF-I) binding in two skeletal muscle-derived cell lines (mouse, C2C12; rat, L6) and in one cardiac muscle-derived cell line (rat, H9c2). Dexamethasone treatment during differentiation of cultured cells caused a dose-dependent increase in CK activity as well as an increase in the degree of myotube formation in C2C12 and L6, whereas H9c2 cells did not exhibit significant CK activities during culture or dexamethasone treatment. Dexamethasone treatment of C2C12 did not stimulate proliferation in differentiating cultures, but a dose-dependent increase in the number of nuclei was observed for L6 concomitant with increased CK activity. In L6 the increased CK activity may therefore reflect a dose-dependent increase in proliferation. Short-term (48 hr) treatment of C2C12 with dexamethasone (20 nM) did not appear to alter myoblast fusion but reversibly increased CK activity. In C2C12 the observed increase in CK, alanine aminotransferase (ALT), and aspartate aminotransferase (AST) activities with dexamethasone treatment suggest modulation of protein expression and/or turnover. Although the data for dexamethasone effects on CK activities varied in each of the cell lines, consistent behavior was observed in all three cell lines when IGF-I binding was examined. IGF-I binding to dexamethasone-treated cells (50 nM for 24 hr the day prior to confluence) resulted in an increased number of available binding sites, with no effect on the binding affinities. Affinity cross linking and autoradiography indicated that the increase in IGF-I binding was the result of dexamethasone up-regulation of type I IGF receptors. Our data for all three muscle cell lines suggest that similar heterologous hormone receptor modulation of type I IGF receptor sites occurs with dexamethasone treatment.

Published

1989

46. Thermodynamic analysis of the lactose repressor-operator DNA interaction.

Author

Whitson PA, Olson JS, and Matthews KS

Subjects

Escherichia coli metabolism, Kinetics, Nucleic Acid Conformation, Repressor Proteins isolation & purification, Thermodynamics, Escherichia coli genetics, Operator Regions, Genetic, Repressor Proteins metabolism, Transcription Factors metabolism

Abstract

Kinetic and equilibrium constants for lactose repressor-operator DNA interaction have been examined as a function of salt concentration, size and sequence context of the operator DNA, and temperature. Significant salt effects were observed on kinetic and equilibrium parameters for pLA 322-8, an operator-containing derivative of pBR 322, and pIQ, an operator and pseudooperator-containing derivative of pBR 322. The association rate constant and equilibrium constant for the 40 base pair operator fragment were also salt dependent. Data for all the DNAs were consistent with a sliding mechanism for repressor-operator association/dissociation [Berg, O. G., & Blomberg, C. (1978) Biophys. Chem. 8, 271-280]. Calculation of the number of ionic interactions based on salt dependence yielded a value of approximately 8 for repressor binding to pIQ and pLA 322-8 vs. approximately 6 for the repressor-40 base pair fragment. These data and the differences in binding parameters for the plasmids vs. the 40 base pair operator are consistent with the formation of an intramolecular ternary complex in the plasmid DNAs. Unusual biphasic temperature dependence was observed in the equilibrium and dissociation rate constants for pLA 322-8, pIQ, and the 40 base pair fragment. These observations coupled with a discontinuity found in the inducer association rate constant as a function of temperature suggest a structural change in the protein. The large positive entropy contributions associated with repressor binding to all the DNAs examined provide the significant driving force for the reaction and are consistent with involvement of ionic and apolar interactions in complex formation.

Published

1986

47. Influence of sequence and distance between two operators on interaction with the lac repressor.

Author

Hsieh WT, Whitson PA, Matthews KS, and Wells RD

Subjects

Base Sequence, DNA analysis, Kinetics, Nucleic Acid Conformation, Plasmids, Lac Operon, Repressor Proteins metabolism, Transcription Factors metabolism

Abstract

The influence of additional operator or pseudooperator sequences on the lactose repressor-operator interaction has been investigated. Results of kinetic and equilibrium binding measurements suggest an important in vivo role for the Z-gene pseudooperator in repressor-operator binding; the formation of a ternary, looped complex is indicated by the influence of secondary operator sites on binding parameters. Although the binding affinity of the Z-gene pseudooperator [Oz] is only approximately 1/30 that observed for the primary operator [O], the binding affinity to DNA containing both Oz and O is significantly higher than either sequence alone or the sum of the two. This synergistic effect is enhanced further by replacing the pseudooperator sequence [Oz] with the primary operator sequence and results in an even stronger ternary complex in plasmids with duplicate primary sites. The distance between the center of the two primary operators affects the formation of a ternary complex in the linear DNA molecules. Decreased dissociation rate constants were observed with spacing of operator-like sequences between 300 and 500 base pairs (bp). Minimal influence of the second operator on repressor binding is observed when the operators are separated by approximately 4000 or approximately 100 bp. The significant influence of distance on kinetic and equilibrium parameters was demonstrated by measurements on plasmid pRW1511 [Oi-O-PL-Oz] cleaved with restriction enzymes either in the polylinker region to place Oi-O and Oz on opposite ends of the linear plasmid or outside this region to maintain the sites within 500 bp. These results are consistent with the formation of operator-repressor-pseudooperator ternary complex to generate a looped DNA structure.

Published

1987