Your search keyword '"Bubenik GA"' showing total 80 results

1. Cyproterone acetate reduced antler growth in surgically castrated fallow deer

Author

Bartos, L, primary, Schams, D, additional, Kierdorf, U, additional, Fischer, K, additional, Bubenik, GA, additional, Siler, J, additional, Losos, S, additional, Tomanek, M, additional, and Lastovkova, J, additional

Published

2000

2. A linear-encoding model explains the variability of the target morphology in regeneration.

Author

Lobo D, Solano M, Bubenik GA, and Levin M

Subjects

Animals, Antlers growth & development, Brachyura growth & development, Planarians growth & development, Bioengineering methods, Models, Biological, Morphogenesis physiology, Regeneration physiology, Synthetic Biology methods

Abstract

A fundamental assumption of today's molecular genetics paradigm is that complex morphology emerges from the combined activity of low-level processes involving proteins and nucleic acids. An inherent characteristic of such nonlinear encodings is the difficulty of creating the genetic and epigenetic information that will produce a given self-assembling complex morphology. This 'inverse problem' is vital not only for understanding the evolution, development and regeneration of bodyplans, but also for synthetic biology efforts that seek to engineer biological shapes. Importantly, the regenerative mechanisms in deer antlers, planarian worms and fiddler crabs can solve an inverse problem: their target morphology can be altered specifically and stably by injuries in particular locations. Here, we discuss the class of models that use pre-specified morphological goal states and propose the existence of a linear encoding of the target morphology, making the inverse problem easy for these organisms to solve. Indeed, many model organisms such as Drosophila, hydra and Xenopus also develop according to nonlinear encodings producing linear encodings of their final morphologies. We propose the development of testable models of regeneration regulation that combine emergence with a top-down specification of shape by linear encodings of target morphology, driving transformative applications in biomedicine and synthetic bioengineering.

Published

2014

3. Endocrine relationships between rank - related behavior and antler growth in deer.

Author

Bartos L, Bubenik GA, and Kuzmova E

Subjects

Animals, Antlers growth & development, Behavior, Animal, Deer growth & development, Endocrine Glands physiology

Abstract

In this review, we analyze endocrine aspects of the relationships between antlerogenesis and rank-related behavior. The explanation of these relationships has been based on the presumption that the antler growth is regulated by hormones modulated by agonistic behavior. Originally, we assumed that these relationships are primarily testosterone dependent. In the eighties, it was reported that the insulin-like growth factor 1 (IGF-1) is the antler-stimulating hormone. This hypothesis was supposed to replace an earlier theory that the antler-stimulating hormones are either androgens or their derivatives. Here, we present historical and recent views on these issues. In particular, we analyze the arguments in favor and against the role of testosterone and IGF-1 in antler growth and present a comparison of the results obtained across some deer species. In this context, we review and discuss experiments with castration of various deer species and analyze data from papers dealing with in vivo studies. We conclude that testosterone and not IGF-1 is the main antler stimulating and regulating hormone, and that concentrations of testosterone may be modified by social behavior.

Published

2012

4. Effect of different factors on proliferation of antler cells, cultured in vitro.

Author

Kužmová E, Bartoš L, Kotrba R, and Bubenik GA

Subjects

Animals, Cell Proliferation, Cells, Cultured, Male, Serum, Antlers cytology, Deer anatomy & histology

Abstract

Antlers as a potential model for bone growth and development have become an object of rising interest. To elucidate processes explaining how antler growth is regulated, in vitro cultures have been established. However, until now, there has been no standard method to cultivate antler cells and in vitro results are often opposite to those reported in vivo. In addition, many factors which are often not taken into account under in vitro conditions may play an important role in the development of antler cells. In this study we investigated the effects of the antler growth stage, the male individuality, passaged versus primary cultures and the effect of foetal calf serum concentrations on proliferative potential of mixed antler cell cultures in vitro, derived from regenerating antlers of red deer males (Cervus elaphus). The proliferation potential of antler cells was measured by incorporation of (3)H thymidine. Our results demonstrate that there is no significant effect of the antler growth stage, whereas male individuality and all other examined factors significantly affected antler cell proliferation. Furthermore, our results suggest that primary cultures may better represent in vivo conditions and processes occurring in regenerating antlers. In conclusion, before all main factors affecting antler cell proliferation in vitro will be satisfactorily investigated, results of in vitro studies focused on hormonal regulation of antler growth should be taken with extreme caution.

Published

2011

5. Melatonin and aging: prospects for human treatment.

Author

Bubenik GA and Konturek SJ

Subjects

Animals, Energy Intake physiology, Gastrointestinal Tract metabolism, Humans, Aging drug effects, Aging physiology, Circadian Clocks drug effects, Circadian Clocks physiology, Melatonin pharmacology, Melatonin physiology

Abstract

Human life span, with or without modern medicine is around 85-95 years. All living creatures have their inner clock that measures their daily (circadian) and their seasonal (circannual) time. These time changes are mediated by the alteration of levels of melatonin, an evolutionary ancient hormone, which is produced in many body tissues, including the pineal gland, retina and the gastrointestinal tract (GIT). Light is blocking the production of melatonin in the pineal gland, darkness is stimulating it. So, the diurnal changes of light intensity of melatonin, provide a "daily clock" and the seasonal changes provide a "seasonal clock". Finally, the reduction of melatonin observed with aging, may indicate the presence of an "age clock". Melatonin is a strong antioxidant (often it is called scavenger of free radicals), which protects the body from the effects of noxious compounds. Therefore it was hypothesized that the reduction of melatonin levels with age contributes to the aging process. So far, the only remedy to extend the life span was a 40% reduction in caloric intake, which prolonged the life in mice, rats, dogs and monkeys by 30-50%. A large group of people imitate these experiments performed on animals, but the results of these experiments will not be known for several decades. How is being hungry prolonging the life span? There is a connection between caloric reduction and melatonin levels in GIT. Several experiments indicate that fasting in animals substantially increased their production of GIT melatonin. Therefore, instead of being permanently hungry, a prolongation of human life could be achieved by a replacement melatonin therapy. A daily intake of melatonin before bed time might achieve the same effect as fasting e.g. an increase of body melatonin levels, which will protect the individual from the ravages of old age. That includes Parkinson's disease and Alzheimer's disease. There is a large group of people taking melatonin daily who believe that melatonin is the "fountain of youth". Those are the subjects which will one day provide an experimental evidence of the efficacy of melatonin.

Published

2011

6. Relationship between rank and plasma testosterone and cortisol in red deer males (Cervus elaphus).

Author

Bartoš L, Schams D, Bubenik GA, Kotrba R, and Tománek M

Subjects

Analysis of Variance, Animals, Immunoenzyme Techniques, Male, Social Environment, Deer blood, Hierarchy, Social, Hydrocortisone blood, Social Dominance, Testosterone blood

Abstract

The objective of this study was to assess the effect of a change in the social composition in a group of red deer males on the relationship between their rank and testosterone. A group of twelve adult red deer males (Cervus elaphus) was tested in two social settings. From April 15 to June 9 (Period 1) this group was kept separately in an enclosure. On June 10, nine 3-year-old males were added to that group of adult males. They were kept together until August 31. We performed 10 observations of the group when the agonistic interactions of the males were recorded and we took 9 blood samples per male in Period 1; 11 observations were made and 10 samples were taken in Period 2. Concentrations of testosterone and cortisol were later determined in plasma. Adding much younger and smaller sparring partners into the experimental group of adult males in Period 2 altered the agonistic behaviour of the adults even though this did not trigger any change in rank position of the experimental males except one. Adult males targeted preferentially their attacks on individuals much lower in the hierarchy. Experimental male deer with higher social rank had lower levels of testosterone in Period 1; in Period 2 it was just the opposite. In Period 1 the animals had higher cortisol levels than in Period 2. As controls we used four adult (5years old) males sharing the enclosure with four 3-year-old males. No changes in hormone concentrations were observed in the control group. Thus, changing the social environment of adult red deer males resulted in change of the relationship between rank and testosterone and cortisol concentrations., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

7. Testosterone, but not IGF-1, LH, prolactin or cortisol, may serve as antler-stimulating hormone in red deer stags (Cervus elaphus).

Author

Bartos L, Schams D, and Bubenik GA

Subjects

Animals, Hydrocortisone metabolism, Immunoenzyme Techniques, Insulin-Like Growth Factor I metabolism, Luteinizing Hormone blood, Male, Prolactin blood, Radioimmunoassay, Antlers growth & development, Antlers metabolism, Deer blood, Deer growth & development, Testosterone blood

Abstract

The role of androgens and insulin-like growth factor 1 (IGF-1) in antler growth has been disputed. We predicted that the secretory of IGF-1 may be associated with an acceleration of body growth rather than with antler growth. Furthermore we anticipated a relationship between the increase of testosterone and the progress of antler growth. If IGF-1 is involved in the stimulation of antler growth, this should be more obvious in young than in mature stags. Eight two-year-old red deer stags (Cervus elaphus), and twelve adult red deer stags were blood sampled and the length of their velvet antlers was measured in one-week intervals during the period of antler growth. Concentrations of testosterone, cortisol, IGF-1, luteinizing hormone (LH), and prolactin were determined in plasma by enzyme immunoassay or radioimmunoassay. Antler growth per day was primarily dependent on changes in testosterone concentration per day in both groups of stags. As expected, only in two-year-old stags we detected a possible role of IGF-1 in the antler growth regulation, but that was not in agreement with previously published studies. Nevertheless, this effect was still utilized in interaction with testosterone. In addition to total antler length, only concentrations of testosterone and LH were significantly higher in adult males in comparison to two-year-old males. Our present results lead us to conclude that it is not IGF-1 but testosterone which is responsible for the intensity of antler growth in subadult and adult red deer stags.

Published

2009

8. Insidious weight gain in prepubertal seized rats treated with an atypical neuroleptic: the role of food consumption, fluid consumption, and spontaneous ambulatory activity.

Author

St-Pierre LS, Bubenik GA, Parker GH, and Persinger MA

Subjects

Acepromazine pharmacology, Analysis of Variance, Animals, Antipsychotic Agents pharmacology, Body Weight drug effects, Disease Models, Animal, Drinking drug effects, Eating drug effects, Eating physiology, Epilepsy chemically induced, Female, Lithium Chloride, Obesity physiopathology, Pilocarpine, Rats, Rats, Wistar, Acepromazine therapeutic use, Antipsychotic Agents therapeutic use, Epilepsy drug therapy, Epilepsy physiopathology, Obesity chemically induced, Weight Gain drug effects

Abstract

Extreme obesity slowly develops in female rats over the months following seizures induced by a single systemic injection of lithium and pilocarpine if the resulting limbic seizures are treated with the atypical neuroleptic acepromazine (but not with ketamine). To discern the contributions from food consumption, water consumption, and (daytime and nighttime) activity to this weight gain, these behaviors were monitored for 4 months, about 2 months after seizure induction. The results indicated that the rats that underwent the obesity procedure exhibited 50% heavier body weights and consumed 42% more food than the reference group, which included rats that had been induced to seize but treated with ketamine. There were no statistically significant differences between groups with respect to either water consumption or (daytime or nighttime) activity. Factor analyses of data for individual rats verified the dissociation between activity and weight gain for the obese rats. The results suggest that the progressive weight gains are centrally mediated and are not secondary to diminished activity or altered fluid consumption.

Published

2009

9. Melatonin and ulcerative colitis: evidence, biological mechanisms, and future research.

Author

Terry PD, Villinger F, Bubenik GA, and Sitaraman SV

Subjects

Animals, Colitis, Ulcerative drug therapy, Humans, Melatonin therapeutic use, Colitis, Ulcerative metabolism, Melatonin physiology

Abstract

Ulcerative colitis (UC) is an inflammatory bowel disease that afflicts up to 1 million people in the US. Current treatments for UC are mostly nonspecific, not always effective, and often accompanied by serious side effects. Therefore, there is considerable interest in finding alternative and more tolerable treatments for this disease. Physiologic data suggest that melatonin is an important regulator of both inflammation and motility in the gastrointestinal tract, and data from in vitro studies, animal experiments, and limited studies in humans suggest that supplemental melatonin may have an ameliorative effect on colitis. In this review we summarize the evidence regarding melatonin as a possible therapeutic agent in UC and discuss possible biological mechanisms and directions for future research.

Published

2009

10. Thirty four years since the discovery of gastrointestinal melatonin.

Author

Bubenik GA

Subjects

Animals, Antioxidants chemistry, Antioxidants history, Energy Intake physiology, Gastrointestinal Diseases physiopathology, Gastrointestinal Motility physiology, History, 20th Century, History, 21st Century, Humans, Melatonin chemistry, Melatonin history, Antioxidants physiology, Gastrointestinal Tract physiology, Melatonin physiology

Abstract

After the discovery of melatonin in the pineal gland by Lerner and co-workers in 1958, melatonin was also detected in the retina and the human appendix. Later, melatonin was confirmed immunohistologically in all segments of the gastrointestinal tract (GIT), in the guts of bovine embryos and in the GIT of low vertebrates. Melatonin was also confirmed in the pancreas and the hepatobiliary system. Melatonin is produced in the enteroendocrine cells of the GIT mucosa. The concentrations of melatonin in the GIT are 10-100x higher than in the plasma and the total amount of melatonin in the GIT is around 400x higher than the amount of melatonin in the pineal gland. Similar to pineal melatonin, GIT melatonin is a multifunctional compound which exhibits some general as well as some specific effects, depending on the organ and the location of GIT tissue. In the GIT, melatonin exhibits endocrine, paracrine, autocrine and luminal actions. Generally, the episodic secretion of melatonin from the GIT is related to the intake and digestion of food and to the prevention of tissue damage caused by hydrochloric acid and digestive enzymes. Some actions, such as the scavenging of hydroxyl free radicals, immunoenhancement and antioxidant effects are of general nature, whereas others, such as an increase of mucosal blood flow, the reduction of peristalsis and the regulation of fecal water content, are specific to the tubular GIT. Generally, melatonin actions oppose those of serotonin. Laboratory and clinical studies indicate that the utilization of melatonin can prevent or treat pathological conditions such as esophageal and gastric ulcers, pancreatitis, colitis, irritable bowel disease, and colon cancer.

Published

2008

11. Role of melatonin in upper gastrointestinal tract.

Author

Konturek SJ, Konturek PC, Brzozowski T, and Bubenik GA

Subjects

Acetylserotonin O-Methyltransferase metabolism, Animals, Antioxidants chemistry, Arylalkylamine N-Acetyltransferase metabolism, Eating physiology, Gastrointestinal Diseases drug therapy, Gastrointestinal Diseases metabolism, Gastrointestinal Diseases physiopathology, Humans, Intestinal Mucosa metabolism, Liver physiology, Melatonin chemistry, Melatonin therapeutic use, Mouth Diseases drug therapy, Mouth Diseases metabolism, Mouth Diseases physiopathology, Pineal Gland enzymology, Pineal Gland metabolism, Pineal Gland physiology, Tryptophan metabolism, Upper Gastrointestinal Tract enzymology, Antioxidants metabolism, Melatonin metabolism, Upper Gastrointestinal Tract metabolism

Abstract

Melatonin, an indole formed enzymatically from L-tryptophan, is the most versatile and ubiquitous hormone molecule produced not only in all animals but also in some plants. This review focuses on the role of melatonin in upper portion of gastrointestinal tract (GIT), including oral cavity, esophagus, stomach and duodenum, where this indole is generated and released into the GIT lumen and into the portal circulation to be uptaken, metabolized by liver and released with bile into the duodenum. The biosynthetic steps of melatonin with two major rate limiting enzymes, arylalkylamine-N-acetyltransferase (AA-NAT) and hydroxyindole-O-methyltransferase (HIOMT), transforming tryptophan to melatonin, originally identified in pinealocytes have been also detected in entero-endocrine (EE) cells of GIT wall, where this indole may act via endocrine, paracrine and/or luminal pathway through G-protein coupled receptors. Melatonin in GIT was shown to be generated in about 500 times larger amounts than it is produced in pineal gland. The production of melatonin by pineal gland shows circadian rhythm with high night-time peak, especially at younger age, followed by the fall during the day-light time. As a highly lipophilic substance, melatonin reaches all body cells within minutes, to serve as a convenient circadian timing signal for alteration of numerous body functions.. Following pinealectomy, the light/dark cycle of plasma melatonin levels disappears, while its day-time blood concentrations are attenuated but sustained mainly due to its release from the GIT. After oral application of tryptophan, the plasma melatonin increases in dose-dependent manner both in intact and pinealectomized animals, indicating that extrapineal sources such as GIT rather than pineal gland are the major producers of this indole. In the upper portion of GIT, melatonin exhibits a wide spectrum of activities such as circadian entrainment, free radicals scavenging activity, protection of mucosa against various irritants and healing of various GIT lesions such as stomatitis, esophagitis, gastritis and peptic ulcer. This review concentrates on the generation and pathophysiological implication of melatonin in upper GIT.

Published

2007

12. Enhanced mortality of rat pups following inductions of epileptic seizures after perinatal exposures to 5 nT, 7 Hz magnetic fields.

Author

St-Pierre LS, Parker GH, Bubenik GA, and Persinger MA

Subjects

Animals, Convulsants, Death, Sudden, Female, Hippocampus metabolism, Lithium, Nitric Oxide Synthase Type III biosynthesis, Nitric Oxide Synthase Type III genetics, Pilocarpine, Pregnancy, Prenatal Exposure Delayed Effects, Rats, Rats, Wistar, Seizures chemically induced, Electromagnetic Fields adverse effects, Seizures mortality

Abstract

While investigating the effects of weak complex magnetic fields upon neuroplasticity following induction of early epilepsy, an unprecedented increase in post-seizure mortality (76%) was observed for young rats that had been exposed perinatally to 7 Hz magnetic fields with maximum intensities around 5 nT. Pups exposed to less intense or more intense fields of this frequency did not display this magnitude of significant mortality. Perinatal exposure through the maternal water supply to either a putative nitric oxide donor or inhibitor did not affect this mortality. The non-linear relationship between perinatal 7 Hz magnetic field intensity and post-seizure mortality may be considered analogous to the non-linear relationship between the molarity of ligands and their sequestering to receptor subtypes. These unexpected results suggest that exposure to apparently innocuous stimuli during early development may affect vulnerability to stimuli presented later in ontogeny.

Published

2007

13. Localization and biological activities of melatonin in intact and diseased gastrointestinal tract (GIT).

Author

Konturek SJ, Konturek PC, Brzozowska I, Pawlik M, Sliwowski Z, Cześnikiewicz-Guzik M, Kwiecień S, Brzozowski T, Bubenik GA, and Pawlik WW

Subjects

Animals, Gastrointestinal Diseases physiopathology, Gastrointestinal Tract physiology, Humans, Melatonin chemistry, Melatonin physiology, Models, Biological, Molecular Structure, Gastrointestinal Diseases metabolism, Gastrointestinal Tract metabolism, Melatonin metabolism

Abstract

Melatonin (MT), an indole formed enzymatically from L-trytophan (Trp), was first discovered in the bovine pineal gland in 1958 by Lerner et al. Melatonin is the most versatile and ubiquitous hormonal molecule produced not only in the pineal gland but also in various other tissues of invertebrates and vertebrates, particularly in the gastrointestinal tract (GIT). This review focuses on the localization, production, metabolism and the functions of MT in GIT and the duodenal unit (liver, biliary routes and pancreas), where multi-step biosynthetic pathways of this indole, similar to those in pinealocytes, have been identified. These biosynthetic steps of MT, including two major rate limiting enzymes; arylalkylamine-N-acetyltransferase (AA-NAT) and hydroxyindole-O-methyltransferase (HIOMT), transforming L-tryptophan (Trp), originally identified in pinealocytes, have been also detected in entero-endocrine (EE) cells of GIT, where this indole appears to act in endocrine, paracrine and/or luminal pathway directly or through G-protein coupled MT receptors. Studies of the distribution of MT in GIT mucosa showed that this indole is generated in GIT in much larger amounts than it is produced in the pineal gland. Melatonin acts in GIT, partly locally in paracrine fashion and is partly released into portal circulation, to be taken up by the liver. It is then metabolized and excreted with the bile to small bowel and finally returns to liver through entero-hepatic circulation. The production of MT by the pineal gland shows circadian rhythm with high night-time surge, especially at younger age, followed by the fall during the day-light time. As a highly lipophylic substance, MT reaches all body cells within minutes, thus, serving as a convenient circadian timing signal. Following pinealectomy, the light/dark cycle of plasma MT levels disappears, while its day-time blood concentration is maintained mainly due to its release from the GIT. According to our experience, after oral application of Trp, the plasma MT increases in dose-dependent manner both in intact and pinealectomized animals and humans, indicating that GIT but not the pineal gland is a source of this indole. In GIT MT exhibits a wide spectrum of activities such as circadian entrainment, antioxidant and free radicals scavenging activity, Melatonin (MT), an indole formed enzymatically from L-trytophan (Trp), was first discovered in the bovine pineal gland in 1958 by Lerner et al. Melatonin is the most versatile and ubiquitous hormonal molecule produced not only in the pineal gland but also in various other tissues of invertebrates and vertebrates, particularly in the gastrointestinal tract (GIT). This review focuses on the localization, production, metabolism and the functions of MT in GIT and the duodenal unit (liver, biliary routes and pancreas), where multi-step biosynthetic pathways of this indole, similar to those in pinealocytes, have been identified. These biosynthetic steps of MT, including two major rate limiting enzymes; arylalkylamine-N-acetyltransferase (AA-NAT) and hydroxyindole-O-methyltransferase (HIOMT), transforming L-tryptophan (Trp), originally identified in pinealocytes, have been also detected in entero-endocrine (EE) cells of GIT, where this indole appears to act in endocrine, paracrine and/or luminal pathway directly or through G-protein coupled MT receptors. Studies of the distribution of MT in GIT mucosa showed that this indole is generated in GIT in much larger amounts than it is produced in the pineal gland. Melatonin acts in GIT, partly locally in paracrine fashion and is partly released into portal circulation, to be taken up by the liver. It is then metabolized and excreted with the bile to small bowel and finally returns to liver through entero-hepatic circulation. The production of MT by the pineal gland shows circadian rhythm with high night-time surge, especially at younger age, followed by the fall during the day-light time. As a highly lipophylic substance, MT reaches all body cells within minutes, thus, serving as a convenient circadian timing signal. Following pinealectomy, the light/dark cycle of plasma MT levels disappears, while its day-time blood concentration is maintained mainly due to its release from the GIT. According to our experience, after oral application of Trp, the plasma MT increases in dose-dependent manner both in intact and pinealectomized animals and humans, indicating that GIT but not the pineal gland is a source of this indole. In GIT MT exhibits a wide spectrum of activities such as circadian entrainment, antioxidant and free radicals scavenging activity, cytoprotective, anti-inflammatory and healing efficacy of various GIT lesions such as esophagitis, gastritis, peptic ulcer, pancreatitis and colitis. This review concentrates on the generation and pathophysiological implication of MT in GIT and related organs.

Published

2007

14. Chronomics, neuroendocrine feedsidewards and the recording and consulting of nowcasts--forecasts of geomagnetics.

Author

Jozsa R, Halberg F, Cornélissen G, Zeman M, Kazsaki J, Csernus V, Katinas GS, Wendt HW, Schwartzkopff O, Stebelova K, Dulkova K, Chibisov SM, Engebretson M, Pan W, Bubenik GA, Nagy G, Herold M, Hardeland R, Hüther G, Pöggeler B, Tarquini R, Perfetto F, Salti R, Olah A, Csokas N, Delmore P, Otsuka K, Bakken EE, Allen J, and Amory-Mazaudin C

Subjects

Animals, Circadian Rhythm, Feedback, Hypothalamus metabolism, Lighting, Melatonin metabolism, Pineal Gland metabolism, Rats, Rats, Wistar, Chronobiology Phenomena, Electromagnetic Fields, Neurosecretory Systems physiology, Solar Activity

Abstract

A multi-center four-hourly sampling of many tissues for 7 days (00:00 on April 5-20:00 to April 11, 2004), on rats standardized for 1 month in two rooms on antiphasic lighting regimens happened to start on the day after the second extremum of a moderate double magnetic storm gauged by the planetary geomagnetic Kp index (which at each extremum reached 6.3 international [arbitrary] units) and by an equatorial index Dst falling to -112 and -81 nT, respectively, the latter on the first day of the sampling. Neuroendocrine chronomes (specifically circadian time structures) differed during magnetically affected and quiet days. The circadian melatonin rhythm had a lower MESOR and lower circadian amplitude and tended to advance in acrophase, while the MESOR and amplitude of the hypothalamic circadian melatonin rhythm were higher during the days with the storm. The circadian parameters of circulating corticosterone were more labile during the days including the storm than during the last three quiet days. Feedsidewards within the pineal-hypothalamic-adrenocortical network constitute a mechanism underlying physiological and probably also pathological associations of the brain and heart with magnetic storms. Investigators in many fields can gain from at least recording calendar dates in any publication so that freely available information on geomagnetic, solar and other physical environmental activity can be looked up. In planning studies and before starting, one may gain from consulting forecasts and the highly reliable nowcasts, respectively.

Published

2005

15. Testosterone and estradiol concentrations in serum, velvet skin, and growing antler bone of male white-tailed deer.

Author

Bubenik GA, Miller KV, Lister AL, Osborn DA, Bartos L, and van der Kraak GJ

Subjects

Animals, Bone and Bones chemistry, Male, Seasons, Skin chemistry, Antlers chemistry, Antlers growth & development, Deer physiology, Estradiol analysis, Estradiol blood, Testosterone analysis, Testosterone blood

Abstract

The growth and mineralization of antlers correlate with the seasonal variation of serum androgens. Whereas seasonal levels of testosterone (T) in plasma are well established, steroid concentrations have not yet been determined in the tissues of growing antlers. Therefore, RIA was used to determine T and 17beta estradiol (E2) in serum, and three areas (tip, middle, and base) of the antler bone and the antler skin, called velvet. Blood and antler tissues of white-tailed deer (Odocoileus virginianus) were collected from May to August. The difference between levels of T and E2 among the sites was calculated using the square root transformation followed by a mixed model analysis with individual deer and an interaction of individual and year (individual(*)year) as a random factor. Concentrations of T in serum (799+/-82 pg/ml) were higher than T values in the velvet (589+/-58 pg/ml, P<0.01) and in the antler bone (538+/-58 pg/ml, P<0.001). Estradiol concentrations differed among antler tissues and serum (P<0.001) and between years (P<0.01). Estradiol concentrations in serum (25+/-25 pg/ml) were consistently lower than those in antler bone (208+/-11 pg/ml, P<0.001) and velvet (150+/-12 pg/ml, P<0.001). The E2:T ratio in serum was 1:10-60. The same ratio for the antler bone was only 1:2-3 and for the velvet 1:3.5. It is concluded that higher T and lower E2 concentrations found in plasma, as compared to antler bone or antler velvet, may indicate a partial metabolism of systemic androgens into estrogens xin the tissues of growing antlers.

Published

2005

16. Gastrointestinal melatonin: localization, function, and clinical relevance.

Author

Bubenik GA

Subjects

Animals, Gastrointestinal Diseases physiopathology, Humans, Muscle Tonus physiology, Pineal Gland metabolism, Receptors, Cell Surface physiology, Receptors, Cytoplasmic and Nuclear physiology, Receptors, Melatonin, Digestive System metabolism, Melatonin physiology

Abstract

The gastrointestinal tract of vertebrate species is a rich source of extrapineal melatonin. The concentration of melatonin in the gastrointestinal tissues surpasses blood levels by 10-100 times and there is at least 400x more melatonin in the gastrointestinal tract than in the pineal gland. The gastrointestinal tract contributes significantly to circulating concentrations of melatonin, especially during the daytime and melatonin may serve as an endocrine, paracrine, or autocrine hormone influencing the regeneration and function of epithelium, enhancing the immune system of the gut, and reducing the tone of gastrointestinal muscles. As binding sites for melatonin exhibit circadian variation in various species, it has been hypothesized that some melatonin found in the gastrointestinal tract might be of pineal origin. Unlike the photoperiodically regulated production of melatonin in the pineal, the release of gastrointestinal melatonin seems to be related to the periodicity of food intake. Phylogenetically, melatonin and its binding sites were detected in the gastrointestinal tract of lower vertebrates, birds, and mammals. Melatonin was found also in large quantities in the embryonic tissue of the mammalian and avian gastrointestinal tract. Food intake and, paradoxically, also longterm food deprivation resulted in an increase of tissue and plasma concentrations of melatonin. Melatonin release may have a direct effect on many gastrointestinal tissues but may also well influence the digestive tract indirectly, via the central nervous system and the sympathetic and parasympathetic nerves. Melatonin prevents ulcerations of gastrointestinal mucosa by an antioxidant action, reduction of secretion of hydrochloric acid, stimulation of the immune system, fostering epithelial regeneration, and increasing microcirculation. Because of its unique properties, melatonin could be considered for prevention or treatment of colorectal cancer, ulcerative colitis, gastric ulcers, irritable bowel syndrome, and childhood colic.

Published

2002

17. Effect of antiandrogen cyproterone acetate on the development of the antler cycle in Southern pudu (Pudu puda).

Author

Bubenik GA, Reyes E, Schams D, Lobos A, Bartos L, and Koerner F

Subjects

Androgen Antagonists administration & dosage, Animals, Cyproterone Acetate administration & dosage, Injections, Intramuscular, Luteinizing Hormone blood, Male, Seasons, Testosterone blood, Androgen Antagonists pharmacology, Antlers growth & development, Cyproterone Acetate pharmacology, Deer physiology

Abstract

The antler cycle of pudu is similar to other cervids, but unlike most boreal deer, male Southern pudu (Pudu puda) exhibits two seasonal peaks of LH and testosterone. In that respect, pudu is similar to roe deer. Whereas the antler cycle in some deer species, such as roe deer or white-tailed deer, is very sensitive to variation of testosterone, in other cervids, such as fallow deer or reindeer, a blockade of androgens with cyproterone acetate (CA) has little or no effect on the timing of the antler casting. In order to test the sensitivity of pudu antlers to variations of androgens, CA (administered 2x weekly at 50 mg/buck) was injected intramuscularly for 3 weeks in 5 adult male pudu, starting February 19 (late summer). Four other males of similar age served as controls. The experiment was performed at the University of Concepcion, Chile, latitude 36.6 degreeS. Blood samples were taken once a week between January 19 and April 3. In CA-treated bucks, the antlers were cast approximately 3 weeks after the initiation of CA treatment and a new antler growth began almost immediately. The antlers reached about 5 cm in length, before ceasing to grow at the end of April, when they became mineralized and were subsequently polished. CA had no effect on the already declining levels of LH. Plasma levels of testosterone in controls increased from February 15, whereas in CA-treated bucks remained depresses until March 21. It is concluded that similarly to white-tailed deer, the antler cycle of Southern pudu is very sensitive to manipulation of androgen levels., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

18. Localization, physiological significance and possible clinical implication of gastrointestinal melatonin.

Author

Bubenik GA

Subjects

Animals, Biliary Tract physiology, Digestion physiology, Eating physiology, Gastrointestinal Diseases physiopathology, Gastrointestinal Motility physiology, Humans, Liver physiology, Mitosis physiology, Phylogeny, Pineal Gland physiology, Signal Transduction, Tissue Distribution, Digestive System Physiological Phenomena, Melatonin physiology

Abstract

The gastrointestinal tract (GIT) is a major source of extrapineal melatonin. In some animals, tissue concentrations of melatonin in the GIT surpass blood levels by 10-100 times and the digestive tract contributes significantly to melatonin concentrations in the peripheral blood, particularly during the day. Some melatonin found in the GIT may originate from the pineal gland, as the organs of the digestive system contain binding sites, which in some species exhibit circadian variation. Unlike the production of pineal melatonin, which is under the photoperiodic control, release of GI melatonin seems to be related to periodicity of food intake. Melatonin and melatonin binding sites were localized in all GI tissues of mammalian and avian embryos. Postnatally, melatonin was localized in the GIT of newborn mice and rats. Phylogenetically, melatonin and melatonin binding sites were detected in GIT of numerous mammals, birds and lower vertebrates. Melatonin is probably produced in the serotonin-rich enterochromaffin cells (EC) of the GI mucosa and can be released into the portal vein postprandially. In addition, melatonin can act as an autocrine or a paracrine hormone affecting the function of GI epithelium, lymphatic tissues of the immune system and the smooth muscles of the digestive tube. Finally, melatonin may act as a luminal hormone, synchronizing the sequential digestive processes. Higher peripheral and tissue levels of melatonin were observed not only after food intake but also after a long-term food deprivation. Such melatonin release may have a direct effect on the various GI tissues but may also act indirectly via the CNS; such action might be mediated by sympathetic or parasympathetic nerves. Melatonin can protect GI mucosa from ulceration by its antioxidant action, stimulation of the immune system and by fostering microcirculation and epithelial regeneration. Melatonin may reduce the secretion of pepsin and the hydrochloric acid and influence the activity of the myoelectric complexes of the gut via its action in the CNS. Tissue or blood levels of melatonin may serve as a marker of GI lesions or tumors. Clinically, melatonin has a potential for a prevention or treatment of colorectal cancer, ulcerative colitis, irritable bowel syndrome, children colic and diarrhea., (Copyright 2001 S. Karger AG, Basel)

Published

2001

19. Circadian variation of portal, arterial and venous blood levels of melatonin in pigs and its relationship to food intake and sleep.

Author

Bubenik GA, Pang SF, Cockshut JR, Smith PS, Grovum LW, Friendship RM, and Hacker RR

Subjects

Animals, Hepatic Veins, Male, Portal Vein physiology, Radioimmunoassay, Splenic Artery physiology, Swine, Venae Cavae physiology, Circadian Rhythm, Digestive System Physiological Phenomena, Eating, Melatonin blood, Pineal Gland physiology, Sleep

Abstract

Circadian levels of melatonin were determined in the hepatic portal vein, cranial vena cava, and the lower aorta of ten juvenile pigs. Blood was sampled every hour for a total of 24 hr via temporary cannulas introduced into blood vessels under anesthesia. No peak levels of melatonin were found in the mid-scotophase, but hepatic portal concentrations peaked at 06.00 hr. Overall levels of melatonin were highest in the hepatic portal vein (range 35-65 pg/mL), followed by an artery (range 30-55 pg/mL) and the vena cava (range 25-35 pg/mL). Levels of melatonin exhibit strong variation between individual pigs, but generally the average levels from all three sources follow each other's time course. However, on occasion, melatonin levels in the hepatic portal vein varied independently from the levels in the vena cava. Large portal peaks were usually preceded by a feeding period and were associated with a subsequent period of sleep. The data indicate that: 1) there is no clear circadian rhythm of melatonin in the peripheral blood of pigs, 2) relatively little melatonin is metabolized during the first liver passage, 3) food intake may elevate melatonin levels in the hepatic portal vein, and 4) increased levels of melatonin originated in the gastrointestinal tract may induce sleep.

Published

2000

20. The effect of ACTH on the GnRH-induced release of LH and testosterone in male white-tailed deer.

Author

Bubenik GA, Brown RD, Schams D, and Bartos L

Subjects

Anesthesia, Animals, Dietary Proteins administration & dosage, Energy Intake, Female, Hydrocortisone blood, Luteinizing Hormone blood, Male, Pregnancy, Prenatal Exposure Delayed Effects, Radioimmunoassay, Seasons, Testosterone blood, Adrenocorticotropic Hormone pharmacology, Deer physiology, Gonadotropin-Releasing Hormone pharmacology, Luteinizing Hormone metabolism, Testosterone metabolism

Abstract

In order to investigate the possible link between stress and the impairment of the reproductive system, 12 yearling white-tailed bucks, born to mothers captured wild in southern Texas, were immobilized every 6 weeks over the period of 1 year. In half of experiments deer were injected i.m. with 20 i.u. of ACTH; in the second half, we used saline only. Simultaneously, in each experiment we also injected all deer i.m. with 100 micrograms of GnRH. Three blood samples were taken before and seven after treatment and plasma levels of cortisol, LH and testosterone (T) were later measured by RIA. Half of our yearlings were born to mothers which were fed high-protein-high-energy (HP-HE) diet during their pregnancy; the other half ws fed high-protein-low-energy diet (HP-LE). ACTH increased cortisol levels in both nutritional regimes. Cortisol levels in controls decreased with time but a more pronounced reduction was observed in HP-HE bucks as compared to HP-LE deer. GnRH significantly increased LH and T levels. However, only in summer, LH levels were higher in HP-LE fed deer than those fed HP-HE; in other seasons they were equal. Conversely, only in winter T levels were elevated in HP-HE fed deer as compared with HP-LE deer. We concluded that the pronounced suppression of reproductive hormones by ACTH or cortisol reported previously in domestic ungulates does not occur in white-tailed deer yearlings. Conversely, the low level of energy provided in food to mothers during their pregnancies significantly reduced peak levels of testosterone in their male offspring. This study further proved that white-tailed deer is a highly adaptable cervid species resistant to environmental stress.

Published

1999

21. Melatonin concentrations in the luminal fluid, mucosa, and muscularis of the bovine and porcine gastrointestinal tract.

Author

Bubenik GA, Hacker RR, Brown GM, and Bartos L

Subjects

Animals, Body Fluids chemistry, Digestive System metabolism, Female, Gastric Mucosa chemistry, Intestinal Mucosa chemistry, Male, Muscle, Smooth chemistry, Species Specificity, Cattle metabolism, Digestive System chemistry, Melatonin analysis, Swine metabolism

Abstract

Melatonin concentrations were measured in serum, luminal fluid, and tissues of the mucosa and muscularis of the entire bovine and porcine gastrointestinal tract (GIT). In both species, GIT levels profoundly exceeded serum levels. In pigs, melatonin was lowest in the luminal fluid and highest in the mucosa. No difference was found in various layers of bovine GIT. Compared to pigs, cows had higher melatonin levels in the stomach and ileum, but lower in the cecum and colon. There was no difference in melatonin levels between anterior and posterior segments of bovine GIT, whereas pigs exhibited several fold higher concentration of melatonin in the posterior segment (cecum and colon). Conversely, melatonin values in the anterior segment were significantly higher in cows, but in the posterior segments porcine values were higher. In cows, concentrations in the mucosa correlated with levels in the muscularis. Melatonin levels in the mucosa and muscularis were higher in the rumen and reticulum than in the omasum and abomasum. The species-specific levels and a distinct distribution of melatonin in the layers of the digestive tube indicates that this indole may be involved in the modulation of gastrointestinal function of monogastric as well as polygastric ungulates, albeit in a different capacity.

Published

1999

22. Seasonal levels of metabolic hormones and substrates in male and female reindeer (Rangifer tarandus).

Author

Bubenik GA, Schams D, White RG, Rowell J, Blake J, and Bartos L

Subjects

Alaska, Animals, Blood Glucose analysis, Fatty Acids, Nonesterified blood, Female, Least-Squares Analysis, Male, Pregnancy, Radioimmunoassay, Seasons, Sex Factors, Growth Hormone blood, Hydrocortisone blood, Insulin-Like Growth Factor I analysis, Reindeer blood, Thyroxine blood, Triiodothyronine blood

Abstract

Seasonal levels of cortisol, growth hormone (GH), insulin like growth factor 1 (IGF-1), glucose, triiodothyronine (T3), free T3, thyroxine and free fatty acids (FFA) were measured every 3 weeks for 54 weeks in the plasma of five adult bulls, and four barren and five pregnant Alaskan reindeer (Rangifer tarandus) cows. Three consecutive samples were taken from each animal. Cortisol levels exhibited wide seasonal variation (9-45 ng/ml) [corrected] without any peak or difference in levels among groups. Rising levels were detected between the 3 consequent samples. Peak GH levels, detected during January and February, were higher in the non-pregnant group (54 ng/ml) than the pregnant (26 ng ml-1) and the male (27 ng ml-1) groups. Low GH levels (2-10 ng ml-1) were recorded between May and September. IGF-1 reached peak levels (715 ng ml-1) in males in August, in non-pregnant females in September (677 ng ml-1), and in the pregnant females in October (505 ng ml-1). Seasonal minima (404 in males, 172 and 93 in pregnant and non-pregnant groups) were detected in February. Glucose was fairly stable throughout the year (100-200 mg/100 ml). A rising levels were found between the three consecutive samples. Triiodothyronine (T3) (2.16-2.30 ng ml-1) peaked in all three groups during the spring and early summer, and minimal levels (0.61-0.97 ng ml-1) were detected from October to January. Conversely, thyroxine or free T3 did not exhibit seasonal variation. FFA fluctuated widely (97-1076 nmol l-1) throughout the year. Only in pregnant females were concentrations more stable (150-460 nmol l-1). Perhaps, because of ad libitum supply of food in captive reindeer, only T3 and GH exhibited pronounced seasonal fluctuations which could be related to the metabolic changes expected during the annual cycle.

Published

1998

23. Prospects of the clinical utilization of melatonin.

Author

Bubenik GA, Blask DE, Brown GM, Maestroni GJ, Pang SF, Reiter RJ, Viswanathan M, and Zisapel N

Subjects

Adjuvants, Immunologic therapeutic use, Animals, Antineoplastic Agents, Hormonal therapeutic use, Antioxidants therapeutic use, Circadian Rhythm drug effects, Circadian Rhythm physiology, Clinical Trials as Topic, Contraceptives, Oral, Hormonal, Cytokines metabolism, Female, Free Radical Scavengers therapeutic use, Gastrointestinal Diseases drug therapy, Growth Inhibitors therapeutic use, Hematopoiesis drug effects, Hematopoiesis physiology, Humans, Male, Melatonin administration & dosage, Melatonin adverse effects, Melatonin pharmacology, Melatonin physiology, Migraine Disorders drug therapy, Migraine Disorders physiopathology, Neoplasms drug therapy, Nervous System Diseases drug therapy, Oxidative Stress, Pineal Gland metabolism, Receptors, Cell Surface drug effects, Receptors, Cell Surface physiology, Receptors, Cytoplasmic and Nuclear drug effects, Receptors, Cytoplasmic and Nuclear physiology, Receptors, Melatonin, Shock, Septic drug therapy, Sleep Wake Disorders drug therapy, Vertebrates physiology, Melatonin therapeutic use

Abstract

This review summarizes the present knowledge on melatonin in several areas on physiology and discusses various prospects of its clinical utilization. Ever increasing evidence indicates that melatonin has an immuno-hematopoietic role. In animal studies, melatonin provided protection against gram-negative septic shock, prevented stress-induced immunodepression, and restored immune function after a hemorrhagic shock. In human studies, melatonin amplified the antitumoral activity of interleukin-2. Melatonin has been proven as a powerful cytostatic drug in vitro as well as in vivo. In the human clinical field, melatonin appears to be a promising agent either as a diagnostic or prognostic marker of neoplastic diseases or as a compound used either alone or in combination with the standard cancer treatment. Utilization of melatonin for treatment of rhythm disorders, such as those manifested in jet lag, shift work or blindness, is one of the oldest and the most successful clinical application of this chemical. Low doses of melatonin applied in controlled-release preparation were very effective in improving the sleep latency, increasing the sleep efficiency and rising sleep quality scores in elderly, melatonin-deficient insomniacs. In the cardiovascular system, melatonin seems to regulate the tone of cerebral arteries; melatonin receptors in vascular beds appear to participate in the regulation of body temperature. Heat loss may be the principal mechanism in the initiation of sleepiness caused by melatonin. The role of melatonin in the development of migraine headaches is at present uncertain but more research could result in new ways of treatment. Melatonin is the major messenger of light-dependent periodicity, implicated in the seasonal reproduction of animals and pubertal development in humans. Multiple receptor sites detected in brain and gonadal tissues of birds and mammals of both sexes indicate that melatonin exerts a direct effect on the vertebrate reproductive organs. In a clinical study, melatonin has been used successfully as an effective female contraceptive with little side effects. Melatonin is one of the most powerful scavengers of free radicals. Because it easily penetrates the blood-brain barrier, this antioxidant may, in the future, be used for the treatment of Alzheimer's and Parkinson's diseases, stroke, nitric oxide, neurotoxicity and hyperbaric oxygen exposure. In the digestive tract, melatonin reduced the incidence and severity of gastric ulcers and prevented severe symptoms of colitis, such as mucosal lesions and diarrhea.

Published

1998

24. Relationship between melatonin levels in plasma and gastrointestinal tissues and the incidence and severity of gastric ulcers in pigs.

Author

Bubenik GA, Ayles HL, Friendship RM, Brown GM, and Ball RO

Subjects

Animal Feed, Animals, Diet, Female, Incidence, Male, Melatonin administration & dosage, Random Allocation, Severity of Illness Index, Stomach Ulcer blood, Stomach Ulcer prevention & control, Swine, Swine Diseases prevention & control, Gastric Mucosa metabolism, Intestinal Mucosa metabolism, Melatonin blood, Stomach Ulcer veterinary, Swine Diseases blood

Abstract

Four weeks of administration of melatonin mixed in the diet (5 mg/kg of food) significantly reduced the incidence of gastric ulcers in young pigs. In control and melatonin supplemented animals, significantly higher levels of melatonin were found in the stomach tissues as compared to jejunum, ileum, or colon. Pigs with the most severe ulcers exhibited significantly lower concentrations of melatonin in their stomach tissue and the blood plasma. Pigs fed coarsely ground diet exhibited higher tissue levels of melatonin in the stomach than animals fed a finely ground diet. Coarse diet was also associated with a lower score of gastric ulcers. No relationship between tissue levels of melatonin and the severity of gastric ulcers was found in other segments of the gastrointestinal tract. In the second experiment we determined that there was no significant difference between the gastro-protective effects of 2.5, 5.0, and 10.0 mg of melatonin mixed per 1 kg of food. A coarsely ground diet is hypothesized to have a gastro-protective effect by stimulating the production of melatonin in the stomach tissues. Dietary supplementation of food with melatonin, at threshold levels perhaps lower than 2.5 mg/kg/feed, may significantly reduce the incidence of gastric ulcers in pigs.

Published

1998

25. Melatonin levels in the gastrointestinal tissues of fish, amphibians, and a reptile.

Author

Bubenik GA and Pang SF

Subjects

Ambystoma, Animals, Carps, Fishes, Oncorhynchus mykiss, Radioimmunoassay, Rana catesbeiana, Rana pipiens, Snakes, Tissue Distribution, Digestive System chemistry, Melatonin analysis

Abstract

Melatonin was detected by radioimmunoassay in the gastrointestinal tract (GIT) of several species of fish (sturgeon, rainbow trout, carp), amphibians (axolotl, leopard frog, bullfrog), and one reptile (red-sided garter snake), which were sacrificed during the daytime. The highest levels of melatonin were detected in the snake [means = 1018 pg/g stomach, 328 pg/g proximal gut (PG), 511 distal gut (DG)] and carp (means = 102 pg/g stomach, 146 pg/g PG and 141 pg/g DG). Lowest levels were found in the axolotl (means = 44 pg/g stomach and PG, 92 pg/g DG) and the bullfrog (means = 73 pg/g esophagus, 78 pg/g stomach, 20 pg/g PG, and 152 pg/g DG). In most cases there were no statistically significant differences in the melatonin levels among various GIT tissues of the same species but there were differences in tissue levels between different species.

Published

1997

26. Seasonal levels of reproductive hormones and their relationship to the antler cycle of male and female reindeer (Rangifer tarandus).

Author

Bubenik GA, Schams D, White RJ, Rowell J, Blake J, and Bartos L

Subjects

Animals, Estradiol blood, Female, Follicle Stimulating Hormone blood, Luteinizing Hormone blood, Male, Pregnancy, Progesterone blood, Prolactin blood, Reindeer physiology, Reproduction, Seasons, Testosterone blood, Antlers growth & development, Gonadal Steroid Hormones blood, Reindeer blood, Reindeer growth & development

Abstract

Seasonal levels of LH, FSH, testosterone (T), estradiol, progesterone (P), and prolactin (PRL) were determined in the plasma of five adult bulls, and five barren and four pregnant cows of Alaskan reindeer (Rangifer tarandus), which were sampled every 3 weeks for 54 weeks. The male reproductive axis was sequentially activated; LH peaked in May-June (2 ng/ml), FSH in June (51 ng/ml), and T in September (11.8 ng/ml). LH levels in females reached a maximum in both groups at the end of August (the beginning of the rut). Seasonal variation in FSH was minimal in pregnant cows, but exhibited one elevation (41 ng/ml) in barren ones in November. T levels in cows remained at barely detectable levels. The decrease of T values observed in both groups in December and March was not significant. PRL peaked in May in cows (135 ng/ml pregnant, 140 ng/ml non-pregnant) and in June in bulls (92 ng/ml). Estradiol was highest in bulls in the rut (August), in non-pregnant cows in January and in pregnant cows in April, shortly before parturition. P levels in the pregnant cows rose from September and peaked (9 ng/ml) shortly before parturition in April. In the non-pregnant females P values increased and decreased several times before peaking (5 ng/ml) in March. In the males, the variation of T and estradiol levels correlated relatively well with the antler cycle but in the females the variation of neither estradiol, progesterone nor T appeared to be related to mineralization or casting of antlers.

Published

1997

27. Pinealectomy reduces melatonin levels in the serum but not in the gastrointestinal tract of rats.

Author

Bubenik GA and Brown GM

Subjects

Animals, Male, Melatonin blood, Rats, Tissue Distribution, Digestive System metabolism, Melatonin metabolism, Pineal Gland physiology

Abstract

Melatonin levels were determined in serum and gastrointestinal tract (GIT) tissues of control (C), sham-pinelaectomized (SPx) and pinealectomized (Px) rats sacrificed in mid scotophase. Serum melatonin concentrations of Px rats exhibited the significantly lowest values (8.6 pg/ml), followed by SPx (20.1 pg/ml) and C (37.5 pg/ml) rats. In C, the ileum (542 pg/ml) and jejunum (531 pg/ml) exhibited the highest average GIT concentrations, followed by the colon (362 pg/ml), stomach (359 pg/ml) and cecum (164 pg/ml). However, only jejunum and ileum samples had significantly higher melatonin levels than cecum samples. There were no major differences between GIT melatonin levels in Px and C rats (range: 169-247 pg/ml). Statistically, pinealectomy did not influence melatonin levels in the GIT of rats. The findings support the hypothesis that melatonin concentrations in the tissues of the GIT are independent of pineal production.

Published

1997

28. Melatonin concentrations in serum and tissues of porcine gastrointestinal tract and their relationship to the intake and passage of food.

Author

Bubenik GA, Pang SF, Hacker RR, and Smith PS

Subjects

Animals, Circadian Rhythm physiology, Male, Photoperiod, Pineal Gland physiology, Radioimmunoassay, Digestive System metabolism, Energy Intake physiology, Food, Gastrointestinal Transit physiology, Melatonin blood, Swine metabolism

Abstract

Melatonin concentrations were determined in serum and 10 segments of the gastrointestinal tract (GIT) of 48 pigs (100 kg weight). The animals were fasted for 30 hr and then sacrificed 0, 1, 2, 5, 10, and 20 hr after refeeding. Peak amount of gastric digesta (2,428 g) and ileum digesta (850 g) were observed 1 hr and 5 hr, after refeeding, respectively. Conversely, colon content reached a minimal weight (726 g) at 2 hr after refeeding. Serum levels of melatonin increased from 3.4 pg/ml to 15.5 pg/ml (peak 5 hr after refeeding). Melatonin levels in GIT tissues before refeeding varied from 23.8 pg/g (stomach-fundus) to 62.1 pg/g (rectum). Increasingly higher levels of melatonin were detected in the distal segments of the GIT. Higher melatonin levels after refeeding were observed in most GIT tissues except the rectum. In most tissues, peak melatonin values were detected 5 hr after refeeding. A significant change in weight of digesta across time (P < 0.05) was detected in the stomach, ileum, and cecum. Similar changes in melatonin levels across time were found in most tissues except the esophagus, stomach (cardia and pylorus), and rectum. Adjacent GIT tissues exhibited similar (P < 0.05) melatonin levels. The GIT melatonin levels correlated best with the variation of digesta weight in the ileum. In addition, the increase of serum melatonin levels correlated best with the increase of GIT melatonin levels in the distal part of the GIT. Our results suggest that melatonin produced in the ileum, cecum, and colon may contribute significantly to the short-term increase of serum melatonin levels observed after refeeding.

Published

1996

29. Melatonin reduces the severity of dextran-induced colitis in mice.

Author

Pentney PT and Bubenik GA

Subjects

Animals, Colitis pathology, Female, Intestinal Mucosa drug effects, Intestinal Mucosa pathology, Male, Melatonin blood, Mice, Serotonin Antagonists pharmacology, Colitis chemically induced, Colitis drug therapy, Dextran Sulfate antagonists & inhibitors, Dextran Sulfate toxicity, Melatonin pharmacology

Abstract

Melatonin administration reduces the severity of dextran sodium sulphate (DSS)-induced colitis in mice. After 7 weeks of daily intraperitoneal melatonin administration (150 micrograms/kg), rectal bleeding and occult blood was eliminated in all mice in which colitis was induced by DSS. In addition the frequency and severity of focal lesions in the mucosa was dramatically reduced. Furthermore, weight loss and higher food consumption observed in DSS-treated mice was reversed in DSS-treated mice injected with melatonin. All treated groups exhibited significant alterations in goblet cell distribution as a result of DSS or melatonin administration. Surprisingly, serum melatonin levels were more than 10 times higher in mice that received DSS as compared to controls. The significant improvement in the conditions of melatonin-treated mice might be due to its effect on the smooth muscles of the colon, the blood supply in the mucosa, its capability as an antioxidant and scavenger of free radicals, or its effect on the immune system of the gut. The higher plasma levels of melatonin in DSS-treated mice might be due to a stress-induced increase in the production of gastrointestinal (GIT) melatonin.

Published

1995

30. The role of serotonin and melatonin in gastrointestinal physiology: ontogeny, regulation of food intake, and mutual serotonin-melatonin feedback.

Author

Bubenik GA and Pang SF

Subjects

Animals, Animals, Newborn, Appetite Regulation physiology, Body Water, Brain metabolism, Drug Implants, Feces, Feedback physiology, Female, Injections, Intraperitoneal, Male, Melatonin administration & dosage, Mice, Serotonin administration & dosage, Digestive System Physiological Phenomena, Eating physiology, Melatonin physiology, Serotonin physiology

Abstract

Average levels of melatonin in the brain and the gastrointestinal (GIT) tissues of newborn mice declined dramatically during the first week postnatally. Food consumption increased considerably in mice bearing subcutaneous serotonin (5-HT) implants (2 mg). Melatonin implants (2 mg) also increased overall consumption but to a lesser degree. Both 5-HT and melatonin implants (2 mg) increased water content of mice fecal pellets, albeit the melatonin effect was less pronounced. Serotonin implants (2,4,6 mg/mouse) increased melatonin levels in brain, jejunum, ileum, and colon, but the effect was not dose-dependent. Intraperitoneally administered melatonin (5, 20 and 200 ug/mouse) elevated melatonin levels in brain and GIT tissues more than 100 times that of the controls, but the effect was not dose-dependent. In contrast, intraperitoneal administration of melatonin (5, 50, and 200 ug) in mice bearing a 5-HT implant (2 mg) resulted in only 3-7 times higher melatonin levels in the GIT as compared to controls, and the brain levels of melatonin were actually lower. A feedback system between 5-HT and melatonin is proposed that regulates appetite and digestive processes by endocrine as well as paracrine effects in both the brain and the GIT.

Published

1994

31. 'Double-head' antlers in red deer Cervus elaphus ssp. in which the antler cores survived the death of the cortex.

Author

Bubenik AB, Bubenik GA, and Ortiz C

Subjects

Animals, Cell Survival physiology, Deer physiology, Male, Androgens physiology, Antlers pathology, Deer anatomy & histology

Abstract

An unusual case of spike antlers in male red deer is described in which the antler core apparently survived the partial mineralization of the cortex in the first rut and then in the next year supported a new, "antleroma-like" growth. On one side of the antler beam a "separation gap" developed between the living core and the dead cortex. On the opposite side a new growth of antler tissue was observed; this was made of spongious bone which in some areas partially resembled peruke-like growth and in others resembled antler "pearls". This new tissue, which developed probably in the second antler cycle, grew in the right antler from the base to the apex but in the left antler it was limited to the lower portion of the beam. This new tissue might still have been covered with velvet when the deer was shot. It is speculated that hypoandrogenism or partial lack of testosterone receptors was responsible for the survival of the antler core and the subsequent proliferation of new antler tissue in the following year.

Published

1994

32. Seasonal variation of LH and testosterone in the smallest deer, the pudu (Pudu puda molina) and its relationship to the antler cycle.

Author

Reyes E, Munoz P, Recabarren S, Torres P, and Bubenik GA

Subjects

Animals, Antlers growth & development, Male, Radioimmunoassay, Seasons, Antlers physiology, Deer metabolism, Luteinizing Hormone blood, Testosterone blood

Abstract

1. In order to obtain a seasonal profile of LH, three adult male pudu (Pudu puda, Molina) were sampled monthly from the saphenous vein for a period of one year. 2. A significant circannual variation of plasma LH levels was detected with an average peak value (1.77 ng/ml) recorded in February and nadir concentrations (0.19 ng/ml) observed in November. 3. The peak level of testosterone (1.54 ng/ml) was detected in March, the time of the rut.

Published

1993

33. Diurnal variation and binding characteristics of melatonin in the mouse brain and gastrointestinal tissues.

Author

Bubenik GA, Niles LP, Pang SF, and Pentney PJ

Subjects

Animals, Female, Male, Mice, Radioimmunoassay, Radioligand Assay, Brain metabolism, Circadian Rhythm physiology, Digestive System metabolism, Melatonin metabolism

Abstract

1. Compared to night time values, levels of melatonin (M), determined by specific RIA, were lower in the brain and the duodenum-jejunum segment of mice sacrificed in mid-photophase. In other parts of the gut no significant diurnal difference was observed. 2. Highest daytime levels were detected in the stomach (569 pg/ml), lowest in the brain (62 pg/ml). 3. Preliminary studies indicate the presence of specific binding sites for [125I]iodo-melatonin in the colon, ileum, jejunum, stomach and brain. These sites, which exhibit an affinity of about 1 nM, may be involved in mediating the gastrointestinal and central effects of melatonin in this species.

Published

1993

34. The effect of para-chlorophenylalanine (PCPA) on food consumption, food transit time and melatonin levels in the brain and the digestive tract of mice.

Author

Bubenik GA and Pang SF

Subjects

Animals, Brain metabolism, Digestive System metabolism, Eating drug effects, Gastrointestinal Transit drug effects, Male, Mice, Brain drug effects, Digestive System drug effects, Fenclonine pharmacology, Melatonin metabolism, Tryptophan Hydroxylase antagonists & inhibitors

Abstract

1. Food consumption (FC), food transit time (FTT) and melatonin levels in the brain and the digestive tract were determined in control and PCPA-treated mice. 2. FC first increased and then rapidly declined; later returned to its original level. 3. FTT was 22% faster in PCPA treated mice on day 1 but then reached the control levels at day 18. 4. Melatonin levels were higher in PCPA treated mice in the brain, and in all GIT tissues, except the stomach. 5. The described data are consistent with some actions observed after serotonin administration. This paradoxical effect of PCPA is explained by a compensatory feedback mechanism.

Published

1993

35. Influence of photoperiod on the seasonal pattern of secretion of luteinizing hormone and testosterone and on the antler cycle in roe deer (Capreolus capreolus).

Author

Sempéré AJ, Mauget R, and Bubenik GA

Subjects

Animals, Deer blood, Luteinizing Hormone blood, Luteinizing Hormone metabolism, Male, Testosterone blood, Testosterone metabolism, Antlers growth & development, Deer physiology, Hormones metabolism, Light, Periodicity, Seasons

Abstract

Annual variations in concentrations of luteinizing hormone (LH) and testosterone in plasma were analysed in relation to the antler cycle in six adult male roe deer exposed to a natural photoperiod (latitude 46 degrees 10'N) and in four adult males maintained in a constant short-day photoperiod (8 h light: 16 h dark) for a year, from the winter solstice at which time both groups of animals had antlers in velvet. The animals were sampled, every 15 min for 2 or 4 h at intervals of one month for a year. Under both natural and experimental conditions, LH concentrations were high from January to March, but in the experimental conditions they decreased between April and May-June, whereas in the natural conditions they increased. Plasma LH concentration was lowest between July and November in animals under natural photoperiod, whereas under 8 h light:16 h dark photoperiod a second increase in plasma LH occurred between August and September. Between March and August, concentrations of plasma testosterone increased under natural photoperiod, whereas under experimental photoperiod there was a biphasic pattern of plasma testosterone with peaks between February and May and between September and November. Under natural photoperiod, antlers were cast in November, 369 +/- 6 days after the previous antlers were cast. Under experimental photoperiod, antlers were cast after 193 +/- 10 days, and a new set developed. The sexual cycle of the male appears to be initiated by an endogenous rhythm in winter and is then maintained by hormonal changes resulting from increasing photoperiod in spring.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1992

36. The effect of food deprivation on brain and gastrointestinal tissue levels of tryptophan, serotonin, 5-hydroxyindoleacetic acid, and melatonin.

Author

Bubenik GA, Ball RO, and Pang SF

Subjects

Animals, Chromatography, High Pressure Liquid, Eating, Hydroxyindoleacetic Acid metabolism, Melatonin metabolism, Mice, Radioimmunoassay, Serotonin metabolism, Brain metabolism, Digestive System metabolism, Food Deprivation physiology, Indoles metabolism, Tryptophan metabolism

Abstract

In order to investigate the effect of food deprivation on the levels of indoles in the brain and the gastrointestinal tissues, we have determined tissue levels of tryptophan (TRP), serotonin (5-HT), 5-hydroxyindoleacetic acid (5-HIAA), and melatonin in the brain and the gastrointestinal tract (GIT) of mice on ad libitum diet as well as in mice deprived of food for 24 and 48 hr. The reduction of food intake 1) had no effect on TRP levels in the brain, but increased TRP concentrations in the stomach and the gut, especially in the colon; 2) decreased 5-HT levels in the brain, but increased values in the stomach and the intestines; 3) decreased 5-HIAA levels in the brain, but increased them in the stomach and the intestines; 4) did not change 5-HT conversion to 5-HIAA in the brain, stomach, and the jejunum, but increased the conversion in the ileum and colon and; 5) increased melatonin levels in all tissues investigated, particularly in the stomach and the brain. The changes of indole levels induced by food deprivation were compared to their known function in the brain and the individual segments of the GIT. A possible serotonin-melatonin antagonism in the brain and GIT function is considered.

Published

1992

37. Antler cycle and endocrine parameters in male axis deer (Axis axis): seasonal levels of LH, FSH, testosterone, and prolactin and results of GnRH and ACTH challenge tests.

Author

Bubenik GA, Brown RD, and Schams D

Subjects

Adrenocorticotropic Hormone, Animals, Follicle Stimulating Hormone blood, Gonadotropin-Releasing Hormone, Luteinizing Hormone blood, Male, Pituitary-Adrenal System physiology, Prolactin blood, Seasons, Testosterone blood, Antlers physiology, Deer physiology

Abstract

1. Antler cycles of six adult male axis deer of southern Texas were relatively well synchronized within the herd. The old antlers were cast from December to March and regenerated antlers polished between March and June. The rutting season occurred in June and July. 2. LH and FSH exhibited little seasonal variation (LH 0.7-1.3 ng/ml; FSH 32-65 ng/ml). Prolactin levels were lowest in December (20 ng/ml) and highest in June (115 ng/ml). Testosterone concentrations exhibited a distinct seasonal pattern: minimum in December (0.1 ng/ml) and maximum in May (1.75 ng/ml). 3. After GnRH challenge (100 micrograms given i.m. in November), maximal LH levels (reached 40-60 min after injection), varied from 7.7 to 11.2 ng/ml, and T levels varied from 1.3 to 1.6 ng/ml. 4. Twenty I.U. of ACTH (given in March), elevated cortisol levels from 4-8 micrograms/dl (pretreatment) to 16-21 micrograms/dl (140 min post-administration).

Published

1991

38. Congenital osteopetrosis in white-tailed deer (Odocoileus virginianus).

Author

Smits B and Bubenik GA

Subjects

Animals, Female, Inbreeding, Osteopetrosis congenital, Osteopetrosis genetics, Deer, Osteopetrosis veterinary

Abstract

Inferior brachygnathia in neonatal fawns occurred sporadically over a 10 yr period in a captive herd of white-tailed deer (Odocoileus virginianus) in southern Ontario. Two fawns submitted for necropsy had marked inferior brachygnathia, protruding tongues, and fractured long bones. Radiographs of the limbs revealed longitudinal striations of relatively translucent immature woven bone that caused loss of distinction between medullary cavities and cortices. Microscopically, there was failure of remodelling of the primary spongiosa and filling of the medulla by cone-shaped chondro-osseous cores. The findings supported a diagnosis of osteopetrosis, usually a hereditary disease characterized by absence of marrow cavities as a result of defective bone remodelling. Osteopetrosis has not been reported previously in deer.

Published

1990

39. Plasma LH, FSH, testosterone, prolactin and androstenedione in male white-tailed deer after ACTH and dexamethasone administration.

Author

Bubenik GA, Smith JH, Pomerantz DK, and Schams D

Subjects

Adrenal Cortex physiology, Animals, Male, Adrenal Cortex drug effects, Adrenocorticotropic Hormone pharmacology, Androstenedione blood, Deer blood, Dexamethasone pharmacology, Follicle Stimulating Hormone blood, Luteinizing Hormone blood, Prolactin blood, Testosterone blood

Abstract

1. In order to investigate the role of the adrenocortical system in the regulation of plasma levels of reproductive hormones, adult male white-tailed deer (five intact and one castrated) from a captive herd were sedated with xylazine and ketamine and then challenged with various doses of ACTH with and without dexamethasone (DX) pretreatment. 2. Plasma levels of LH, testosterone (T), FSH, prolactin (PRL) and androstenedione (A) were determined by RIA in serial samples taken from the jugular vein. 3. An increase of A levels detected after ACTH in both intact and castrated deer indicated stimulation of secretion of adrenal androgens by ACTH. 4. No effect on FSH and PRL levels was observed in either group. 5. A significant decline of LH and T observed in various treatments could not be attributed to ACTH or DX administration. It is speculated that the decrease may be caused by anaesthetics which alleviate the stress induced in deer by the pre-immobilization activities.

Published

1990

40. The role of sex hormones in the growth of antler bone tissue. I: Endocrine and metabolic effects of antiandrogen therapy.

Author

Bubenik GA, Bubenik AB, Brown GM, and Wilson DA

Subjects

Alkaline Phosphatase blood, Animals, Antlers anatomy & histology, Calcification, Physiologic, Deer blood, Male, Testis anatomy & histology, Testosterone antagonists & inhibitors, Testosterone blood, Thyroid Gland anatomy & histology, Thyroxine blood, Antlers growth & development, Cyproterone pharmacology, Deer growth & development, Horns growth & development, Testosterone physiology

Abstract

Cyproterone acetate (CA), an antiandrogenic compound, was used in order to investigate the role of testosterone in bone growth processes. The formation of Haversian systems in the growing antlers of white-tailed deer (Odocoileus virginianus) were substantially affected by only 3.5 mg of CA kg/wk. The mineralization processes of the bone matrix were almost completely blocked and the antlers persisted in growing throughout the whole year. Plasma levels of thyroxine, alkaline phosphatase and GH were higher while cortisol and testosterone levels were lower than in controls. No differences were registered in plasma levels of Ca, P or urea nitrogen. Despite hypertrophy of interstitial tissue, spermatogenesis was almost completely blocked. The sexual behaviour and the body appearance of experimental animals was typical for castrates.

Published

1975

41. Seasonal levels of cortisol, triiodothyronine and thyroxine in male axis deer.

Author

Bubenik GA and Brown RD

Subjects

Animals, Immobilization, Male, Stress, Physiological blood, Deer blood, Hydrocortisone blood, Seasons, Thyroxine blood, Triiodothyronine blood

Abstract

1. Seasonal plasma levels of thyroxine (T4), triiodothyronine (T3) and cortisol were investigated between November and June in seven penned male Axis deer. 2. No distinct seasonal variation of cortisol has been detected. The levels oscillated between 1 and 5 micrograms/dl. 3. The stress of immobilization and sampling had little effect on cortisol levels. Concentrations remained mostly stable in three consecutive samples taken 10 min apart. 4. T3 concentrations were stable between November and March (average values 110-120 ng/dl). After a sharp decline in April (average 70 ng/dl), a strong rebound in May and June was observed. 5. A distinct seasonal peak of T4 (highest individual value, 12.1 micrograms/dl) was detected in March. After a sharp decline in April (lowest individual value, 4.5 micrograms/dl) a strong rebound followed in May.

Published

1989

42. Seasonal variations in hair pigmentation of white-tailed deer and their relationship to sexual activity and plasma testosterone.

Author

Bubenik GA and Bubenik AB

Subjects

Animals, Fluorescent Antibody Technique, Male, Seasons, Skin analysis, Skin cytology, Testosterone analysis, Acclimatization, Deer physiology, Hair Color, Sexual Behavior, Animal, Testosterone blood

Abstract

Intensity of hair pigmentation of dorsal scrotum, nose, cheek and forehead areas of seven mature, male white-tailed deer were determined from close-up colour slides taken once a month during a 2-year period. Blood samples and skin biopsies from forehead areas were taken at the same time as the photographs. Plasma testosterone (T) levels were measured by radioimmunoassay and T in the skin was investigated by immunohistology. Seasonal variations of hair pigmentation are most pronounced in the forehead region followed by the cheek, scrotum, and nose area. Peak blood levels of T (15.4 ng/ml) were detected in November. The highest correlation between T levels and pigmentation of the forehead area (R = 93%; R2 = 0.87), was established when pigmentation values were shifted two months ahead. Immunohistologically detectable T was localized in hair follicles, hair sheets and apocrine glands but not in the sebaceous glands. It is hypothesized that pigmentation of head regions might serve as a visual cue indicating the sexual status of an individual.

Published

1985

43. The effect of neurogenic stimulation on the development and growth of bony tissues.

Author

Bubenik GA, Bubenik AB, Stevens ED, and Binnington AG

Subjects

Aging, Animals, Antlers innervation, Bone and Bones innervation, Deer, Electric Stimulation, Female, Antlers growth & development, Bone Development, Horns growth & development

Abstract

In order to elucidate the mechanisms of neurogenic control of bone development and growth, the effects of traumatic and electric stimulation on the development, size, and shape of antler bone tissue were investigated. Unilateral growth of antler in a female deer was initiated after traumatic stimulation of the frontal bone. Electrical stimulation of antler nerves or antler periosteum resulted in an increase in more than 70% in antler length and over 40% in weight. Stimulation of antler nerves also resulted in abnormal shape of antlers. The role of periosteal nerves and the participation of the central nervous system in the responses to stimulation is discussed.

Published

1982

44. Immunohistological investigation of N-acetylserotonin in the rat cerebellum after parachlorophenylalanine treatment.

Author

Bubenik GA, Brown GM, and Grota LJ

Subjects

Animals, Cerebellar Cortex drug effects, Male, Melatonin biosynthesis, Rats, Serotonin metabolism, Cerebellar Cortex metabolism, Fenclonine pharmacology, Serotonin analogs & derivatives

Abstract

The amount of N-acetylserotonin (NAS) in the granule layer of the rat cerebellum was investigated using immunolohistologic double antibody technique. After 5 days of treatment with parachlorophenylalanine (PCPA) an increase of NAS was observed. The possibility of a differential effect of PCPA on serotonin synthesis in the neurons and the nerve terminals is discussed.

Published

1976

45. Immunohistochemical localization of melatonin in the rat Harderian gland.

Author

Bubenik GA, Brown GM, and Grota LJ

Subjects

Animals, Fluorescent Antibody Technique, Harderian Gland ultrastructure, Histocytochemistry, Male, Rats, Staining and Labeling, Harderian Gland analysis, Lacrimal Apparatus analysis, Melatonin analysis

Abstract

Using fluorescence and double antibody techniques, melatonin was localized immunohistologically in the secretory cells of the Harderian gland of mature male rats. The presence and quantity of melatonin in the acinar cells seem to correlate with the amount of porphyrins inside the lumen. The specificity was proven by disappearance of yellow fluorescence after saturation of antibody with melatonin or after use of nonspecific antibody only.

Published

1976

46. Developing antler, a model for endocrine regulation of bone growth. Concentration gradient of T3, T4, and alkaline phosphatase in the antler, jugular, and the saphenous veins.

Author

Bubenik GA, Sempere AJ, and Hamr J

Subjects

Animals, Antlers growth & development, Male, Minerals metabolism, Seasons, Veins, Alkaline Phosphatase blood, Antlers blood supply, Deer physiology, Horns blood supply, Jugular Veins, Saphenous Vein, Thyroxine blood, Triiodothyronine blood

Abstract

Thyroxine (T4), triiodothyronine (T3), and alkaline phosphatase (AP) were assayed monthly in white-tailed deer plasma obtained from the antler (A), jugular (J), and the saphenous (S) veins during the period of antler growth and the period of mineralization. The concentrations of T3, T4, and AP in the J and S were not significantly different in any month. During the most intense antler growth period (June and July) AP levels were significantly higher and T3 significantly lower in A as compared to J and S, but no differences were found during the mineralization phase in August. T3 values from all three veins were significantly lower in the mineralization period than J and S values during the growing phase. Variations of T4 levels between A, J, and S as well as differences between months were only negligible. The data indicate that AP is produced in large quantity in the antler tissue during the growth period, but the amount is sharply reduced during the mineralization phase. T3 is utilized in the growing antler; the rate of utilization correlates with the intensity of antler growth. T4 is probably not utilized in the antler bone. Developing antler might be used as a model to study growth and mineralization processes of bony tissues.

Published

1987

47. Circadian and circannual rhythms of LH, FSH, testosterone (T), prolactin, cortisol, T3 and T4 in plasma of mature, male white-tailed deer.

Author

Bubenik GA, Bubenik AB, Schams D, and Leatherland JF

Subjects

Animals, Follicle Stimulating Hormone blood, Hydrocortisone blood, Luteinizing Hormone blood, Male, Prolactin blood, Testosterone blood, Thyroxine blood, Triiodothyronine blood, Circadian Rhythm, Deer blood, Hormones blood, Seasons

Abstract

Circadian and circannual rhythm of plasma LH, FSH, testosterone (T), prolactin, cortisol, triiodothyronine (T3) and thyroxine (T4) were investigated in two mature male white-tailed deer. No circadian rhythms were detected. Seasonal levels of LH and FSH were reached in September and October; troughs occur in May and June. Maximal T values were detected in November and December (the time of the rut); minimal levels occur between February and July. Prolactin peaked in May and June; minimal levels were detected between October and February. T3 exhibited two maxima; the first in the May-June period, the second in the September-October period. T4 showed no recognizable circannual rhythm. Cortisol levels were found to be much higher during cold months (December-April) than during the rest of the year. The least variable circadian levels were that of FSH and prolactin, with LH, T4, T3, cortisol and testosterone following in descending order. Cannulation stress might have some effect on the levels of testosterone, LH and cortisol. Correlation between LH and testosterone levels were detected mainly during sexually active periods.

Published

1983

48. Circadian and circannual rhythms of melatonin in plasma of male white-tailed deer and the effect of oral administration of melatonin.

Author

Bubenik GA and Smith PS

Subjects

Administration, Oral, Animals, Male, Melatonin administration & dosage, Radioimmunoassay, Seasons, Circadian Rhythm, Deer blood, Melatonin blood, Periodicity

Abstract

Circadian levels of melatonin (M) were determined in plasma of four male white-tailed deer sampled hourly in September for 24 h via indwelling jugular catheter. Concentrations of M, detected by the radioimmunoassay rise with the onset of darkness, peak at 1.00 h (265 pg/ml) and then quickly decline to baseline levels (60 to 70 pg/ml) maintained during the scotophase. Orally administered M (5 mg, given at 13:00 h) induced a rapid elevation of plasma M (peak 980 pg/ml at 15:00 h) followed by a decline to baseline (100 pg/ml) reached at 22:00 h. The usual midscotophase peak was abolished by exogenous M administration. Seasonal midscotophase levels of M (determined in three samples taken 45 min apart between 23:00 and 1:00 h reach maximum in December (1530 pg/ml) followed by decline to minimum (69 to 90 pg/ml) observed between May and July. The data indicate that: 1) similarly to other mammals, deer exhibit peak levels of M during the dark phase; 2) 5 mg of M given orally caused a rapid elevation of M levels in blood followed by a depression of the normally present night-time peak; and 3) midscotophase levels of M exhibit very pronounced seasonal fluctuations which might be related to yearly cycles, such as the reproduction, hair molt, and antler growth.

Published

1987

49. The effect of thyroxine (T4) administration on plasma levels of tri-iodothyronine (T3) and T4 in male white-tailed deer.

Author

Bubenik GA and Smith JH

Subjects

Animals, Male, Thyroxine administration & dosage, Thyroxine pharmacology, Deer blood, Thyroxine blood, Triiodothyronine blood

Abstract

Plasma concentrations of thyroxine (T4) and tri-iodothyronine (T3) were monitored for 6 hr in mature male white-tailed deer following i.m. administration of synthetic T4. Oral administration of 600, 800 and 1000 micrograms of T4 was mostly ineffectual in increasing plasma levels of T3 and T4. On the other hand i.m. administration of similar doses of T4 was followed by a higher degree of increase in T3 and lesser degree of increase in T4 levels. It appears that high doses of T4 (e.g. 1000 micrograms) are less effective in raising plasma values of T3 or T4 than low or intermediate doses.

Published

1986

50. The role of melatonin and dopamine in retinal physiology.

Author

Bubenik GA and Purtill RA

Subjects

Animals, Bromocriptine pharmacology, Male, Prolactin metabolism, Rats, Receptors, Dopamine drug effects, Receptors, Dopamine physiology, Retinal Degeneration etiology, Retinal Degeneration pathology, Dopamine physiology, Melatonin physiology, Retina drug effects

Abstract

The effect of melatonin treatment on the development of retinal damage induced by continuous high intensity illumination (CHII) was investigated. Melatonin-treated rats developed more severe impairment of retinal structures compared with controls. In a similar study rats treated with bromocriptine, a potent stimulator of dopamine receptors, developed far less damage in their retinas during and after CHII compared with nontreated animals. Bromocriptine also increased the survival of retinas in rats with hereditary retinal degeneration (RCS strain).

Published

1980