ABSTRACT
AIMS: To describe the concentration of Zn in bulk tank milk (BTM) in a sample of New Zealand dairy farms, investigate the association between the method of Zn administration for facial eczema prophylaxis and Zn concentrations in BTM and investigate the relationship between the concentration of Zn in serum and that in BTM. METHODS: Multiple BTM samples (n = 3,330) collected during milk pick-up by the milk tanker driver were stored and tested for 121 farms, in Northland (n = 50), Waikato (n = 51) and Southland (n = 20) from February to May 2017. Enrolled farms provided retrospective information on the type of Zn supplementation (if any) used for the prevention of facial eczema and the timeframe over which supplementation occurred. In addition, the concentration of Zn in serum was measured in blood samples collected from ≥15 cattle per farm for 22 farms from Northland (n = 11) and Waikato (n = 11), and compared against the concentrations of Zn in BTM on the day of blood sampling. A linear mixed model was used to model log Zn concentrations in BTM using method of Zn supplementation, region, milk fat and protein percentage, volume of milk, and frequency of milk pick-up as risk factors. A mixed logistic regression model was used to assess the relationship between Zn concentrations in BTM and the presence of cows with a concentration of Zn in serum of ≥20 µmol/L. RESULTS: The median Zn concentration in BTM was 67.9 (min 38.9, max 146.6) µmol/L. The median range of Zn concentrations for repeated samples of BTM within farm was 22.6 µmol/L. In comparison to farms that did not use any form of Zn supplementation, farms that supplemented Zn through a slow-release capsule, oral drench, in feed or a combination of in-feed and water were associated with increased concentrations of Zn in BTM (p < 0.001). There was no difference in Zn concentrations in BTM between farms that administered Zn through the water only and farms that did not administer Zn (p = 0.22). Every 15.3 µmol/L increase in Zn concentration in BTM was associated with 2.2 times (95% CI=1.7-2.9) the odds of a cow having Zn concentration in serum ≥20 µmol/L. CONCLUSION AND CLINICAL RELEVANCE: Zn concentration in BTM is highly variable between farms, days and Zn administration method. Zn concentration in BTM content has modest potential as a way to signal whether a herd has achieved the high Zn status considered to be protective against FE.
Subject(s)
Cattle Diseases , Eczema , Animals , Cattle , Female , Cattle Diseases/prevention & control , Dairying , Dietary Supplements , Eczema/prevention & control , Eczema/veterinary , Milk , Retrospective Studies , ZincABSTRACT
AIMS: To investigate the relationship between Zn concentrations in serum and those in milk or faeces, and to assess the ability of the Zn concentrations in milk, serum and faeces to predict intake of ZnO in dairy cattle. METHOD: Seventy cows from one commercial farm in the Waikato region of New Zealand received one of seven dose rates (0, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5â g/100â kg bodyweight (BW)) of ZnO given by oral drench, every morning, for 7 consecutive days. Every afternoon, milk and blood samples were collected from all cows. Free-catch faecal samples were collected during the afternoon milking on 3 days throughout the trial.Linear mixed models were used to assess the relationship between the concentration of Zn in serum and that in milk, and in faeces, respectively, and the relationship between dose rate of ZnO and concentrations of Zn in serum, faeces and milk, respectively. Receiver operating characteristic curve analysis was used to determine the ability of the Zn concentration in serum, milk and faeces to predict that a cow had been treated with a dose of ZnO ≥2.5â g/100â kg, the industry-recommended dose rate needed to protect against facial eczema. RESULTS: A 1-µmol/L increase in Zn concentration in milk was associated with a 0.14 (95% CI = 0.11-0.17) µmol/L increase in Zn concentration in serum. Zn concentration in faeces was scaled by its SD; a 1 SD increase was associated with a 1.83 (95% CI = 0.54-3.12) µmol/L increase in zinc concentration in serum. Zn concentrations in serum and faeces increased with increasing dose rates of ZnO. No differences in Zn concentrations in milk were noted between animals dosed with 1.5-3.5â g ZnO/100â kg BW, inclusive. At the optimal threshold of Zn concentration in serum to predict protective ZnO intake (22â µmol/L), the sensitivity was 0.76 (95% CI = 0.69-0.82) and specificity 0.85 (95% CI = 0.80-0.89). For the concentration of Zn in faeces, the optimal threshold was 17.36â mmol/kg, with a corresponding sensitivity of 0.84 (95% CI = 0.84-0.85) and specificity of 0.85 (95% CI = 0.73-0.94). At the optimal threshold for the Zn concentration in milk (76.6â µmol/L), the sensitivity was lower than the other two sample types at 0.59 (95% CI = 0.52-0.67), but with a similar specificity of 0.84 (95% CI = 0.79-0.88). CONCLUSIONS AND CLINICAL RELEVANCE: The concentration of Zn in milk shows promise as an initial screening test to identify dairy farms that do not provide adequate zinc to provide protection against FE.
Subject(s)
Eczema , Milk , Animals , Cattle , Dietary Supplements , Eczema/drug therapy , Eczema/veterinary , Feces/chemistry , Female , Lactation , Milk/chemistry , Zinc/analysisABSTRACT
OBJECTIVES: To describe the diagnostic tests used and their comparative performance in dogs diagnosed with sinonasal aspergillosis in the United Kingdom. A secondary objective was to describe the signalment, clinical findings and common clinicopathologic abnormalities in sinonasal aspergillosis. MATERIALS AND METHODS: A multi-centre retrospective survey was performed involving 23 referral centres in the United Kingdom to identify dogs diagnosed with sinonasal aspergillosis from January 2011 to December 2021. Dogs were included if fungal plaques were seen during rhinoscopy or if ancillary testing (via histopathology, culture, cytology, serology or PCR) was positive and other differential diagnoses were excluded. RESULTS: A total of 662 cases were entered into the database across the 23 referral centres. Four hundred and seventy-five cases met the study inclusion criteria. Of these, 419 dogs had fungal plaques and compatible clinical signs. Fungal plaques were not seen in 56 dogs with turbinate destruction that had compatible clinical signs and a positive ancillary test result. Ancillary diagnostics were performed in 312 of 419 (74%) dogs with observed fungal plaques permitting calculation of sensitivity of cytology as 67%, fungal culture 59%, histopathology 47% and PCR 71%. CLINICAL SIGNIFICANCE: The sensitivities of ancillary diagnostics in this study were lower than previously reported challenging the clinical utility of such tests in sinonasal aspergillosis. Treatment and management decisions should be based on a combination of diagnostics including imaging findings, visual inspection, and ancillary testing, rather than ancillary tests alone.
Subject(s)
Aspergillosis , Dog Diseases , Dogs , Animals , Dog Diseases/diagnosis , Dog Diseases/microbiology , United Kingdom/epidemiology , Retrospective Studies , Aspergillosis/veterinary , Aspergillosis/diagnosis , Male , Female , Sensitivity and SpecificityABSTRACT
BACKGROUND: The arrival of the Delta variant of SARS-CoV-2 was associated with increased transmissibility and illness of greater severity. Reports of nosocomial outbreaks of Delta variant COVID-19 in acute care hospitals have been described but control measures varied widely. AIM: Epidemiological investigation of a linked two-ward COVID-19 Delta variant outbreak was conducted to elucidate its source, risk factors, and control measures. METHODS: Investigations included epidemiologic analysis, detailed case review serial SARS-CoV-2 reverse transcriptase-polymerase chain reaction (RT-PCR) testing of patients and healthcare workers (HCWs), viral culture, environmental swabbing, HCW-unaware personal protective equipment (PPE) audits, ventilation assessments, and the use of whole genome sequencing (WGS). FINDINGS: This linked two-ward outbreak resulted in 17 patient and 12 HCW cases, despite an 83% vaccination rate. In this setting, suboptimal adherence and compliance to PPE protocols, suboptimal hand hygiene, multi-bedded rooms, and a contaminated vital signs cart with potential fomite or spread via the hands of HCWs were identified as significant risk factors for nosocomial COVID-19 infection. Sudden onset of symptoms, within 72 h, was observed in 79% of all Ward 2 patients, and 93% of all cases (patients and HCWs) on Ward 2 occurred within one incubation period, consistent with a point-source outbreak. RT-PCR assays showed low cycle threshold (CT) values, indicating high viral load from environmental swabs including the vital signs cart. WGS results with ≤3 SNP differences between specimens were observed. CONCLUSION: Outbreaks on both wards settled rapidly, within 3 weeks, using a `back-to-basics' approach without extraordinary measures or changes to standard PPE requirements. Strict adherence to recommended PPE, hand hygiene, education, co-operation from HCWs, including testing and interviews, and additional measures such as limiting movement of patients and staff temporarily were all deemed to have contributed to prompt resolution of the outbreak.
Subject(s)
COVID-19 , Cross Infection , Humans , SARS-CoV-2/genetics , COVID-19/diagnosis , COVID-19/epidemiology , COVID-19/prevention & control , Personal Protective Equipment , Disease Outbreaks/prevention & control , Hospitals , Cross Infection/epidemiology , Cross Infection/prevention & control , Vital Signs , Health PersonnelABSTRACT
AIMS/HYPOTHESIS: Urocortins are the endogenous ligands for the corticotropin-releasing factor receptor type 2 (CRFR2), which is implicated in regulating energy balance and/or glucose metabolism. We determined the effects of chronic CRFR2 activation on metabolism in vivo, by generating and phenotyping transgenic mice overproducing the specific CRFR2 ligand urocortin 3. METHODS: Body composition, glucose metabolism, insulin sensitivity, energy efficiency and expression of key metabolic genes were assessed in adult male urocortin 3 transgenic mice (Ucn3(+)) under control conditions and following an obesogenic high-fat diet (HFD) challenge. RESULTS: Ucn3(+) mice had increased skeletal muscle mass with myocyte hypertrophy. Accelerated peripheral glucose disposal, increased respiratory exchange ratio and hypoglycaemia on fasting demonstrated increased carbohydrate metabolism. Insulin tolerance and indices of insulin-stimulated signalling were unchanged, indicating these effects were not mediated by increased insulin sensitivity. Expression of the transgene in Crfr2 (also known as Crhr2)-null mice negated key aspects of the Ucn3(+) phenotype. Ucn3(+) mice were protected from the HFD-induced hyperglycaemia and increased adiposity seen in control mice despite consuming more energy. Expression of uncoupling proteins 2 and 3 was higher in Ucn3(+) muscle, suggesting increased catabolic processes. IGF-1 abundance was upregulated in Ucn3(+) muscle, providing a potential paracrine mechanism in which urocortin 3 acts upon CRFR2 to link the altered metabolism and muscular hypertrophy observed. CONCLUSIONS/INTERPRETATION: Urocortin 3 acting on CRFR2 in skeletal muscle of Ucn3(+) mice results in a novel metabolically favourable phenotype, with lean body composition and protection against diet-induced obesity and hyperglycaemia. Urocortins and CRFR2 may be of interest as potential therapeutic targets for obesity.
Subject(s)
Dietary Fats/adverse effects , Hyperglycemia/metabolism , Hyperglycemia/prevention & control , Obesity/metabolism , Obesity/prevention & control , Urocortins/genetics , Urocortins/metabolism , Animals , Body Composition/drug effects , Body Composition/physiology , Dietary Fats/pharmacology , Disease Models, Animal , Energy Metabolism/drug effects , Energy Metabolism/physiology , Glucose/metabolism , Insulin/blood , Insulin-Like Growth Factor I/metabolism , Male , Mice , Mice, Inbred BALB C , Mice, Inbred C57BL , Mice, Knockout , Mice, Transgenic , Muscle, Skeletal/metabolism , Muscle, Skeletal/pathology , Phenotype , Receptors, Corticotropin-Releasing Hormone/deficiency , Receptors, Corticotropin-Releasing Hormone/genetics , Receptors, Corticotropin-Releasing Hormone/metabolismABSTRACT
Critical illness due to sepsis is a major global health concern associated with a high burden of mortality and cost. Glucocorticoid dysregulation in human sepsis is associated with poorer outcomes. This study examines glucocorticoid metabolism in septic canine patients to delineate elements of cellular dysregulation in common with critically ill humans and explore potential differences. This was a prospective case-control study conducted in the veterinary specialist critical care departments of two University teaching hospitals. Critically ill canine patients with naturally occurring sepsis or septic shock were compared with an in-hospital control population. Serum total, bound, and free cortisol concentrations were increased in septic shock (P < 0.001), and higher bound cortisol was associated with nonsurvival (P = 0.026). Urinary Gas Chromatography-Tandem Mass Spectrometry was performed to assess urinary glucocorticoid metabolites and estimate intracellular glucocorticoid metabolism. Decreased renal 11ß-hydroxysteroid dehydrogenase 2 (11ßHSD2) activity inferred from increased urinary cortisol-to-cortisone ratio was observed in critically ill dogs (P < 0.001). Decreased 11ßHSD2 activity (P = 0.019) and increased A-ring reduction of cortisone (P = 0.001) were associated with nonsurvival within the critically ill dogs. Intriguingly, two dogs were identified with low circulating total cortisol (<2 mg/dL) associated with increased A-ring reduction of cortisol, not previously described. Investigation of spontaneous canine sepsis and septic shock reveals dysregulation of cortisol to cortisone conversion similar to that observed in human patients, but with differences in A-ring reduction compared with those reported in humans. In addition, two dogs with high levels of cortisol inactivation associated with low circulating cortisol concentrations were identified.
Subject(s)
Dog Diseases/metabolism , Glucocorticoids/metabolism , Hydrocortisone/metabolism , 11-beta-Hydroxysteroid Dehydrogenases/metabolism , Animals , Chromatography, Gas , Critical Illness , Dog Diseases/blood , Dogs , Female , Glucocorticoids/urine , Hydrocortisone/blood , Male , Tandem Mass SpectrometryABSTRACT
PURPOSE: I.CAN is a program which uses health coaching to provide tailored nutrition and physical activity guidance to people diagnosed with cancer in a rural region in eastern Victoria, Australia. I.CAN builds patients' nutritional knowledge, attitudes and health literacy to healthy eating and weight maintenance and incorporates sustainable and affordable dietary changes into everyday eating patterns. While oncology care identifies patients at risk of malnutrition and weight loss, less attention has been placed on building patient's capacity for healthy lifestyles and behaviours after cancer treatment. METHODS: I.CAN is delivered by a dietitian and exercise physiologist and is offered in three streams, one-on-one consultation, one-one-one and group and group. Paired t tests and chi-square analysis were used to analyse data. RESULTS: At 3-month review, I.CAN participants (1) significantly increased exercise activity from 51 to 86% (p < 0.001) and (2) showed increased trends in positive food choices from 62 to 66%. Importantly, positive food choices for alcohol and processed snacks were maintained, and there were increases in positive food choices for fresh fruit and vegetables, low fat dairy and processed meats. CONCLUSION: I.CAN is an example of a program which can be delivered within a rural setting, with minimal resources, and achieve positive impact for patients. IMPLICATIONS FOR CANCER SURVIVORS: Key to the success of the program is promoting wellness early in the cancer trajectory and providing patients with practical tools, a person-centred and multidisciplinary team approach and a program which is adaptable to the changing needs of the patient and the health service.
Subject(s)
Exercise/physiology , Neoplasms/therapy , Nutritional Status/physiology , Adult , Aged , Aged, 80 and over , Australia , Female , Humans , Male , Middle Aged , Rural PopulationABSTRACT
The enzyme 11-beta-hydroxysteroid dehydrogenase isoenzyme 2 (11BHSD2) is responsible for converting the active glucocorticoid cortisol to inactive cortisone and in the renal medulla protects the mineralocorticoid receptor (MR) from activation by cortisol. Derangements in 11BHSD2 activity can result in reduced conversion of cortisol to cortisone, activation of the MR by cortisol and, consequently, sodium and water retention. The objective of this study was to examine glucocorticoid metabolism in canine congestive heart failure (CHF), specifically to evaluate whether renal 11BHSD2 activity and expression were altered. Dogs were prospectively recruited into one of two phases; the first phase (n=56) utilized gas chromatography-tandem mass spectrometry to examine steroid hormone metabolites normalised to creatinine in home-caught urine samples. Total serum cortisol was also evaluated. The second phase consisted of dogs (n=18) euthanased for refractory CHF or for behavioural reasons. Tissue was collected from the renal medulla for examination by quantitative reverse transcription polymerase chain reaction, immunohistochemistry and protein immune-blotting. Heart failure did not change urinary cortisol:cortisone ratio (P=0.388), or modify renal expression (P=0.303), translation (P=0.427) or distribution of 11BHSD2 (P=0.325). However, CHF did increase excretion of 5α-tetrahydrocortisone (P=0.004), α-cortol (P=0.002) and α-cortolone (P=0.009). Congestive heart failure modifies glucocorticoid metabolism in dogs by increasing 5α-reductase and 20α-hydroxysteroid dehydrogenase activity. Differences between groups in age, sex and underlying disease processes may have influenced these results. However, 11BHSD2 does not appear to be a potential therapeutic target in canine CHF.
Subject(s)
11-beta-Hydroxysteroid Dehydrogenase Type 2/metabolism , Dog Diseases/metabolism , Glucocorticoids/metabolism , Heart Failure/veterinary , Kidney/metabolism , Animals , Cortisone/urine , Dogs , Female , Gas Chromatography-Mass Spectrometry/veterinary , Heart Failure/drug therapy , Hydrocortisone/urine , Male , Prospective StudiesABSTRACT
BACKGROUND AND AIMS: Accurately representing development is essential for applying crop simulations to investigate the effects of climate, genotypes or crop management. Development in wheat (Triticum aestivum, T. durum) is primarily driven by temperature, but affected by vernalization and photoperiod, and is often simulated by reducing thermal-time accumulation using vernalization or photoperiod factors or limiting accumulation when a lower optimum temperature (T(optl)) is exceeded. In this study T(optl) and methods for representing effects of vernalization and photoperiod on anthesis were examined using a range of planting dates and genotypes. METHODS: An examination was made of T(optl) values of 15, 20, 25 and 50 degrees C, and either the most limiting or the multiplicative value of the vernalization and photoperiod development rate factors for simulating anthesis. Field data were from replicated trials at Ludhiana, Punjab, India with July through to December planting dates and seven cultivars varying in vernalization response. KEY RESULTS: Simulations of anthesis were similar for T(optl) values of 20, 25 and 50 degrees C, but a T(optl) of 15 degrees C resulted in a consistent bias towards predicting anthesis late for early planting dates. Results for T(optl) above 15 degrees C may have occurred because mean temperatures rarely exceeded 20 degrees C before anthesis for many planting dates. For cultivars having a strong vernalization response, anthesis was more accurately simulated when vernalization and photoperiod factors were multiplied rather than using the most limiting of the two factors. CONCLUSIONS: Setting T(optl) to a high value (30 degrees C) and multiplying the vernalization and photoperiod factors resulted in accurately simulating anthesis for a wide range of planting dates and genotypes. However, for environments where average temperatures exceed 20 degrees C for much of the pre-anthesis period, a lower T(optl) (23 degrees C) might be appropriate. These results highlight the value of testing a model over a wide range of environments.
Subject(s)
Models, Biological , Photoperiod , Temperature , Triticum/growth & development , Crops, Agricultural/growth & development , Genotype , India , Seasons , Time FactorsABSTRACT
Zoonotic bacteria such as Campylobacter, Listeria, and Shiga toxin-producing Escherichia coli have been found in bulk tank milk in many countries, and the consumption of raw milk has been implicated in outbreaks of disease in New Zealand. Fecal contamination at milking is probably the most common source of pathogenic bacteria in bulk tank milk. Raw milk was collected from 80 New Zealand dairy farms during 2011 and 2012 and tested periodically for Campylobacter, E. coli O157, Listeria monocytogenes, and Salmonella. Milk quality data such as coliform counts, total bacterial counts, and somatic cell counts also were collected. By treating the total bacterial count as a proxy for fecal contamination of milk and utilizing farm and animal level prevalence and shedding rates of each pathogen, a predictive model for the level of pathogenic bacteria in bulk tank raw milk was developed. The model utilizes a mixture distribution to combine the low level of contamination inherent in the milking process with isolated contamination events associated with significantly higher pathogen levels. By simulating the sampling and testing process, the predictive model was validated against the observed prevalence of each pathogen in the survey. The predicted prevalence was similar to the observed prevalence for E. coli O157 and Salmonella, although the predicted prevalence was higher than that observed in samples tested for Campylobacter.
Subject(s)
Dairying , Milk/microbiology , Animals , Escherichia coli O157/isolation & purification , New Zealand , Salmonella/isolation & purificationABSTRACT
11 beta-Hydroxysteroid dehydrogenase (11 beta HSD) catalyzes the conversion of corticosterone to inert 11-dehydrocorticosterone, thus regulating glucocorticoid access to intracellular receptors. This type 1 isoform (11 beta HSD-1) is a bidirectional NADPH(H)-dependent enzyme in vitro and is highly expressed in liver, where it is regulated by glucocorticoids, thyroid hormones, estrogen, and GH in vivo. In humans in vivo, enzyme inhibition alters glucose homeostasis, an effect thought to be mediated in the liver. However, detailed investigation of the biology of 11 beta HSD-1 in liver, its function, regulation, and indeed even reaction direction, has been hampered by the lack of clonal hepatic cell lines that express 11 beta HSR-1. Studies of nonhepatic cell lines have suggested that 11 beta HSD-1 is directly regulated by hormones, and transfection of nonhepatic cell lines has sown that reaction direction varies between cell types, possibly reflecting intracellular cosubstrate (NADP+/NADPH) ratios or PH. To investigate reaction direction and gene regulation of 11 beta HSD-1 in hepatocytes, we defined conditions for primary culture of adult rat hepatocytes that maintain high 11 beta HSR-1 messenger RNA expression. In intact primary hepatocytes over a wide range of steroid concentrations (2.5-250 nM), 11 beta-reduction was the predominant reaction direction [33.5 +/- 0.5% conversion of 11-dehydrocorticosterone (25 nM) to corticosterone after 30 min], with undetectable 11 beta-dehydrogenation. However, homogenates of hepatocyte cultures showed plentiful 11 beta-dehydrogenase activity. Treatment of hepatocyte cultures with the metabolic inhibitors sodium azide (5 nM) and KCN (1 nM) altered cellular NADP+/NADPH ratios from 0.244 +/- 0.042 in controls to 0.020 +/- 0.001 and 0.152 +/- 0.009, respectively, but had no effect on 11 beta-reductase or 11 beta- dehydrogenase activity. High concentrations of KCN (10 mM) modestly increased 11 beta-reductase activity (32.4 +/- 1.7% to 48.8 +/- 0.5%, whereas 11 beta-dehydrogenation remained at the limit of detection. Manipulation of culture medium pH (6.2-8.0) had no effect on enzyme activity. Dexamethasone (10-7 M) induced hepatocyte 11 beta-reductase activity from 23.4 +/- 0.7% to only weakly affects reaction direction. Glucocorticoid and insulin regulation of hepatic 11 beta HSD-1 is directly mediated, but other hormonal controls are either lost in culture or mediated indirectly. This primary hepatocyte culture system will allow investigation of the control of 11 beta-reductase activity and its implications for glucocorticoid-regulated hepatic functions.
Subject(s)
Hydroxysteroid Dehydrogenases/metabolism , Liver/enzymology , Oxidoreductases/metabolism , 11-beta-Hydroxysteroid Dehydrogenases , Animals , Azides/pharmacology , Cells, Cultured , Chemical Phenomena , Chemistry, Physical , Culture Media , Dexamethasone/pharmacology , Gene Expression Regulation , Hydrogen-Ion Concentration , Hydroxysteroid Dehydrogenases/genetics , Liver/drug effects , Male , NADP/metabolism , Potassium Cyanide/pharmacology , RNA, Messenger/metabolism , Rats , Rats, Wistar , Sodium AzideABSTRACT
The role of glucocorticoids in obesity is poorly understood. Observations in obese men suggest enhanced inactivation of cortisol by 5alpha-reductase and altered reactivation of cortisone to cortisol by 11betahydroxysteroid dehydrogenase type 1 (11betaHSD1). These changes in glucocorticoid metabolism may influence corticosteroid receptor activation and feedback regulation of the hypothalamic-pituitary-adrenal axis (HPA). We have compared corticosterone metabolism in vivo and in vitro in male obese and lean Zucker rats, aged 9 weeks (n = 8/group). Steroids were measured in 72-h urine and 0900 h trunk blood samples. 5alpha-Reductase type 1 and 11betaHSD activities were assessed in dissected tissues. Obese animals were hypercorticosteronemic and excreted more total corticosterone metabolites (2264+/-623 vs. 388+/-144 ng/72 h; P = 0.003), with a greater proportion being 5alpha-reduced or 11-oxidized. 11-Dehydrocorticosterone was also elevated in plasma (73+/-9 vs. 18+/-2 nM; P = 0.001) and urine (408+/-111 vs. <28 ng/72 h; P = 0.01). In liver of obese rats, 5alpha-reductase type 1 activity was greater (20.6+/-2.7% vs. 14.1+/-1.5%; P<0.04), but 11betaHSD1 activity (maximum velocity, 3.43+/-0.56 vs. 6.57+/-1.13 nmol/min/mg protein; P = 0.01) and messenger RNA levels (0.56+/-0.08 vs. 1.03+/-0.15; P = 0.02) were lower. In contrast, in obese rats, 11betaHSD1 activity was not different in skeletal muscle and sc fat and was higher in omental fat(36.4+/-6.2 vs. 19.2+/-6.6; P = 0.01), whereas 11betaHSD2 activity was higher in kidney (16.7+/-0.6% vs. 11.3+/-1.5%; p = 0.01). We conclude that greater inactivation of glucocorticoids by 5alpha-reductase in liver and 11betaHSD2 in kidney combined with impaired reactivation of glucocorticoids by 11betaHSD1 in liver may increase the MCR of glucocorticoids and decrease local glucocorticoid concentrations at these sites. By contrast, enhanced 11betaHSD1 in omental adipose tissue may increase local glucocorticoid receptor activation and promote obesity.
Subject(s)
Adrenal Cortex Hormones/metabolism , Corticosterone/metabolism , Obesity/metabolism , 11-beta-Hydroxysteroid Dehydrogenase Type 1 , 3-Oxo-5-alpha-Steroid 4-Dehydrogenase/metabolism , Adrenal Cortex Hormones/blood , Adrenal Cortex Hormones/urine , Animals , Corticosterone/analogs & derivatives , Humans , Hydroxysteroid Dehydrogenases/genetics , Hydroxysteroid Dehydrogenases/metabolism , Liver/enzymology , Male , Microsomes, Liver/enzymology , Obesity/genetics , Organ Specificity , Rats , Rats, Zucker , ThinnessABSTRACT
We describe conduction block as an unusual electrophysiologic manifestation in a patient with necrotizing angiopathy. The patient developed subacute symptoms over a 1-month period consisting of progressive pain, tingling, and weakness of the lower extremities. Physical examination revealed a pattern consistent with a polyneuropathy. Electrodiagnostic studies provided evidence of a conduction block in the left ulnar nerve. Pathologic studies confirmed the process to be a necrotizing angiopathy. This report establishes the role of conduction block in human nerve ischemia.
Subject(s)
Neural Conduction , Peripheral Nervous System Diseases/etiology , Polyarteritis Nodosa/complications , Electrodiagnosis , Electromyography , Electrophysiology , Female , Humans , Median Nerve/pathology , Median Nerve/physiopathology , Middle Aged , Nerve Degeneration , Peripheral Nervous System Diseases/diagnosis , Peripheral Nervous System Diseases/physiopathology , Ulnar Nerve/pathology , Ulnar Nerve/physiopathologyABSTRACT
11 beta-Hydroxysteroid dehydrogenase type 1 (11 beta-HSD-1), a regulator of intrahepatocellular glucocorticoid activity, is bidirectional in homogenates but catalyses 11 beta-reduction (regenerating glucocorticoid) in intact primary hepatocytes in culture. To examine this discrepancy at the whole-organ level, we examined 11 beta-HSD-1 activity in the intact bivascularly perfused rat liver. On a single pass through male rat liver, 44+/-5% of 11-dehydrocorticosterone (11-DHC) recovered was 11 beta-reduced to corticosterone, whereas 10+/-1% of corticosterone was 11 beta-dehydrogenated to 11-DHC. 11 beta-Reduction was less in female liver (21+/-2%, P<0.01) and was significantly greater with perfusion of all substrate via the portal vein (50+/-3%) than via the hepatic artery (30+/-2%, P<0.05). 11 beta-Reductase activity was not saturated by 11-DHC (10(-)(9)-10(-)(6) M). Perfusion with carbenoxolone (CBX, 10(-)(6)-10(-)(3 )M) did not alter 11 beta-reduction of 11-DHC. In contrast, pretreatment with CBX in vivo (10 mg/day) for 7 days inhibited 11 beta-reductase (19+/-4% conversion, P<0.01). Concentrations of 11-DHC in male rat plasma were 44+/-6 nM. Thus 11 beta-HSD-1 is predominantly an 11 beta-reductase in the intact rat liver and is only inhibited by chronic administration of CBX. The substantial concentrations of plasma 11-DHC as substrate suggest that 11 beta-HSD-1 activity and its potential selective inhibition could modify glucocorticoid action in vivo.
Subject(s)
Hydroxysteroid Dehydrogenases/metabolism , Liver/enzymology , 11-beta-Hydroxysteroid Dehydrogenases , Animals , Carbenoxolone/pharmacology , Corticosterone/analogs & derivatives , Corticosterone/blood , Dose-Response Relationship, Drug , Female , Hydroxysteroid Dehydrogenases/antagonists & inhibitors , Male , Rats , Sex CharacteristicsABSTRACT
In vitro, 11beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD-1) catalyses the interconversion of active corticosterone and inert 11-dehydrocorticosterone. 11beta-HSD-1 is highly expressed in liver, where the reaction direction is 11beta-reduction, thus potentially increasing intrahepatic active glucocorticoid levels. Inhibition of 11beta-HSD-1 increases insulin sensitivity in humans in vivo suggesting that hepatic 11beta-HSD-1 plays a role in the maintenance or control of key glucocorticoid-regulated metabolic functions. We have selectively repressed hepatic 11beta-HSD-1 in rats by oestradiol administration for 42 days. This nearly completely repressed hepatic 11beta-HSD-1 mRNA expression and enzyme activity and reduced expression of hepatic glucocorticoid-inducible genes including phosphoenolpyruvate carboxykinase (PEPCK), the rate-limiting step in gluconeogenesis. Similar effects were seen after 3 weeks of oestradiol treatment. To examine whether this was due to any direct effect of oestradiol upon PEPCK, the experiment was repeated in adrenalectomised rats+/-glucocorticoid replacement. In adrenalectomised rats, oestradiol did not attenuate hepatic PEPCK, whilst glucocorticoid replacement restored this action. Oestradiol did not alter hepatic metabolism of corticosterone by pathways other than 11beta-HSD-1. These data suggest 11beta-HSD-1 plays an important role in maintaining expression of key glucocorticoid-regulated hepatic transcripts. Enzyme inhibition may provide a useful therapeutic target for manipulating glucose homeostasis.
Subject(s)
Enzyme Inhibitors/pharmacology , Estradiol/pharmacology , Hydroxysteroid Dehydrogenases/metabolism , Liver/enzymology , Phosphoenolpyruvate Carboxykinase (ATP)/genetics , RNA, Messenger/analysis , 11-beta-Hydroxysteroid Dehydrogenases , Adrenalectomy , Analysis of Variance , Animals , Blotting, Northern , Corticosterone/metabolism , Dexamethasone/pharmacology , Gene Expression/drug effects , Glucocorticoids/pharmacology , Hippocampus/drug effects , Hippocampus/metabolism , Hydroxysteroid Dehydrogenases/antagonists & inhibitors , Hydroxysteroid Dehydrogenases/genetics , Liver/drug effects , Male , Orchiectomy , Phosphoenolpyruvate Carboxykinase (ATP)/metabolism , Rats , Rats, WistarABSTRACT
11Beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD-1) catalyses the interconversion of active corticosterone and inert 11-dehydrocorticosterone. Short-term glucocorticoid excess upregulates 11beta-HSD-1 in liver and hippocampus leading to suggestions that 11beta-HSD-1 ameliorates the deleterious effects of glucocorticoid excess by its 11beta-dehydrogenase activity. However the predominant activity of 11beta-HSD-1 in vivo is 11beta-reduction, thus generating active glucocorticoid. We have re-examined the time-course of glucocorticoid regulation of 11beta-HSD-1 in the liver, hippocampus and kidney of adult male rats in vivo. Sham operation markedly reduced 11beta-HSD-1 mRNA expression in all tissues, and reduced 11beta-HSD bioactivity in liver and hippocampus when compared to untouched controls. Adrenalectomy reduced 11beta-HSD-1 expression in all tissues in the short-term (7 days), followed by subsequent recovery of enzyme activity by 21 days in liver and hippocampus. Dexamethasone replacement of adrenalectomised rats attenuated the initial decrease in hepatic 11beta-HSD-1 activity, but by 21 days dexamethasone reduced activity compared to control levels. Thus glucocorticoids regulate 11beta-HSD-1 in a complex tissue- and temporal-specific manner. This pattern of regulation suggests glucocorticoids repress 11beta-HSD-1 at least in the liver, a pattern of regulation more consistent with the evidence that 11beta-HSD-1 is an 11beta-reductase in vivo. Operational stress per se down-regulates 11beta-HSD-1 which has implications for interpretation and design of in vivo studies of 11beta-HSD-1.
Subject(s)
Glucocorticoids/pharmacology , Hydroxysteroid Dehydrogenases/biosynthesis , 11-beta-Hydroxysteroid Dehydrogenases , Adrenalectomy , Animals , Enzyme Induction , Gene Expression Regulation , Hippocampus/drug effects , Hippocampus/metabolism , Hydroxysteroid Dehydrogenases/genetics , Kidney/drug effects , Kidney/metabolism , Liver/drug effects , Liver/metabolism , Male , RNA, Messenger/analysis , Rats , Rats, Wistar , Time FactorsABSTRACT
11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) reversibly converts physiological glucocorticoids (cortisol, corticosterone) to inactive 11-dehydro forms, and thus controls glucocorticoid access to receptors in a variety of tissues. We have cloned a cDNA encoding 'liver-type' 11 beta-HSD (11 beta-HSD1) from the mouse using PCR, and have determined its nucleotide sequence. Mouse 11 beta-HSD1 cDNA showed 91% identity to rat 11 beta-HSD1 cDNA. There was 87% amino acid identity with rat 11 beta-HSD1 with conservation of the putative cofactor and substrate binding domains. Northern blot analysis of mouse tissues demonstrated abundant 11 beta-HSD1 message in the liver, kidney and lung, with lower expression in brain subregions and gonads. 11 beta-HSD1 mRNA was below the level of detection in the murine colon. 11 beta-HSD1 mRNA levels in kidney was higher in males than in females, but in contrast to the rat, there was no sexual dimorphism in the mouse liver. Although males and females showed different mRNA levels in the kidney, there was no sex difference in 11 beta-HSD enzyme activity. Thus, despite the high inter-species conservation of 11 beta-HSD1, there are clear species and tissue-specific differences in its expression.
Subject(s)
Hydroxysteroid Dehydrogenases/genetics , 11-beta-Hydroxysteroid Dehydrogenases , Amino Acid Sequence , Animals , Base Sequence , Cloning, Molecular , DNA, Complementary/genetics , Female , Gene Expression Regulation, Enzymologic , Hydroxysteroid Dehydrogenases/chemistry , Hydroxysteroid Dehydrogenases/metabolism , Kidney/enzymology , Liver/enzymology , Male , Mice , Mice, Inbred C57BL , Mice, Inbred CBA , Molecular Sequence Data , Organ Specificity , RNA, Messenger/analysis , Rats , Sequence Analysis, DNA , Sequence Homology, Amino AcidABSTRACT
Our purpose was to examine changes in pulmonary hemodynamics for patients with pulmonary contusion. Pulmonary vascular resistance index (PVRI) and shunt fraction were calculated from standard measurements in 25 traumatized patients. The percent of lung volume injured, measured as air-space filling disease (ASF), was quantitated from computed tomograms using a previously described technique. The amount of reactive pulmonary vasoconstriction per unit of injury (PVRI/ASF) identified 3 groups of patients: 5 were reactors (PVRI/ASF greater than 15), 10 were weak-reactors (PVRI/ASF = 5 to 15), and 10 were nonreactors (PVRI/ASF less than 5). In the reactor group PVRI increased as the size of contusion (ASF) increased (r = 0.99). In weak-reactors PVRI also increased with the size of contusion (r = 0.93), but the slope was less pronounced. In both groups shunt fraction did not rise above 0.31. In the nonreactors, PVRI remained normal while shunt fraction increased with the extent of injury (r = 0.95). These results indicate that pulmonary vasoconstriction often occurs after pulmonary contusion. The vasoconstriction most probably represents a compensatory mechanism to limit perfusion of traumatized parenchyma, thereby minimizing increases in shunt fraction. Some patients (nonreactors) not demonstrating this response have unchecked increases in shunt fraction. This insight into the hemodynamic sequelae of pulmonary contusions may enhance our ability to provide optimal care for patients suffering from this injury.
Subject(s)
Contusions/physiopathology , Hemodynamics/physiology , Lung Injury , Wounds, Nonpenetrating/physiopathology , Adolescent , Adult , Contusions/diagnostic imaging , Humans , Lung/diagnostic imaging , Lung/physiopathology , Radiography , Vascular Resistance/physiology , Vasoconstriction/physiology , Wounds, Nonpenetrating/diagnostic imagingABSTRACT
A series of computational models were developed to better understand basal ganglia functions and the effects of levodopa pharmacodynamics in Parkinson's disease. The models employed a relatively new computational approach known as a neural network, which is a small number of simple processing units interconnected with designated constraints. A key difference from traditional computational modeling is that the networks are "trained" rather than programmed with experimental input and output data. After training, only a limited number of these models, could explain the pharmacodynamic data observed by Mouradian et al. in different groups of Parkinsonian patients. These successful models strongly argue for at least two pharmacologic mechanisms to explain the antiparkinsonian effect and dyskinesia tendency for the different classes of Parkinson's patients: never-treated, stable, wearing-off, and on-off. They suggest different roles for the striatal units by examining predictions of motor and dyskinesia tendency through theoretical blockade of each kind of unit. The models show that the antiparkinsonian effect in Parkinson's disease cannot be explained by the action of dopaminergic neurons on striatal neurons alone. Although the models necessarily oversimplify basal ganglia function, they provide a useful quantitative insight into how motor and dyskinesia behaviors may develop in different Parkinsonian subgroups.
Subject(s)
Levodopa/therapeutic use , Neural Networks, Computer , Parkinson Disease/drug therapy , Basal Ganglia/physiopathology , Corpus Striatum/drug effects , Drug Tolerance , Dyskinesia, Drug-Induced/etiology , Humans , Levodopa/adverse effects , Parkinson Disease/physiopathologyABSTRACT
In thoracic trauma, as in all of medicine, diagnosis precedes therapy. Over the past 5 years, we have liberally used chest CT examinations to improve diagnosis in the severely injured patient. This approach has significantly increased our diagnostic yield and permitted early diagnosis and treatment of unsuspected injuries. Confidence in our method of quantitation has helped us to assess the severity of pulmonary parenchymal injuries. Correlation of the CT findings with histologic study has changed our concept of pulmonary contusion from that of interstitial disease to that of pulmonary laceration with blood pneumonia.