The origin of homoiothermy--unsolved problem

The analysis of allometric dependence of energy expenditure on body mass among reptiles, birds and mammals has shown that standard metabolic rate of reptiles when they are warmed up to the temperature of homoiothermic animals is an order of magnitude lower than that of birds and mammals. Basal metabolism is originated as special feature historically related to the metabolism during active behavior, rather than thermal regulation. Facultative endothermy was not advantageous for large animals because of long time needed to warm up the body. The ancestors of birds and animals escaped negative consequences of van't-Hoff equation by choosing constant body temperature. Heat conductivity of reptile's covers is so great, that it cannot keep endogenous warm of resting animal at any temperature of the body. Reptile "dressed" in covers of bird or mammal would be able to keep warm under conditions of maximal aerobic muscular activity and body temperature similar to that of homoiothermic animals. The base of chemical thermoregulation in birds and mammals is a thermoregulatory muscle tonus which remains unknown. One can suppose that during evolution of birds and mammals the saltation-liked origin of endothermy "fixed" the level of metabolism typical for running reptile and transformed in into the basal metabolism. This event took place at the cell and tissue level. The absence of palaeontological evidences and intermediate forms among recent species does not allow easy understanding of homoiothermy origin.     

Use of helium-oxygen to examine the effect of cold acclimation on the summit metabolism of a marsupial, Dasyuroides byrnei

To determine whether marsupial mammals increase their metabolic capabilities during cold acclimation, the metabolism of both warm and cold acclimated Dasyuroides byrnei was examined by exposure to cold in a helium-oxygen atmosphere. Mean values of heat production and conductance were significantly higher in a helium-oxygen atmosphere than in air. Body temperature did not change until metabolic capacity was exhausted. Both cold and warm acclimated groups could maintain a metabolic scope of 10-11 times the basal or standard level for this species. Such a metabolic scope is much higher than levels recorded for placental mammals. At very low ambient temperatures cold acclimated D. byrnei could sustain a high level of heat production longer than could warm acclimated animals. While there are some similarities between marsupial mammals and placental mammals in their responses to cold acclimation, an increase in maximum metabolism, as reported for placentals, does not seem to occur in marsupials.     

An experimental study of the effects of spider venom on animals

The effects of venom of spiders from the families Pisauridae, Argyronetidae, and Araneidae on different animals (worms, mollusks, arthropods, fishes, and mammals) were studied. The animals of different classes varied in their sensitivity to spider venom. The animals that can be a potential prey were the most sensitive. The venom of spider females was more efficient than that of males. The spiders were found to be able to kill five victims in sequence; the most effective action of venom was on the first two ones. The venom regenerates in 1.5–2.0 hours.     

Lifetime energy budgets in mammals and birds.

1. Two data sets for standard energy metabolism (351 and 320 species, respectively) and one for maximal lifespan (494 species) in mammals have been assembled from the literature. 2. In addition smaller data sets of active (field) energy metabolism in mammals (36 species) and in birds (25 species) have been drawn on. 3. The products of the respective regression parameters as well as the products of energy metabolism and maximal lifespan in individual species have been computed in order to estimate lifetime energy metabolism in mammals generally and in various mammalian orders. 4. It is found that lifetime energy budgets in mammals generally, whether standard or active, very systematically with body mass with slopes between 0.87 and 0.93, significantly different from unity (P less than 0.001 or P less than 0.01). 5. In birds, lifetime energy budgets, whether standard or active, vary with slopes of 0.94 +/- 0.05 and 0.88 +/- 0.09, which are not significantly different from unity (P greater than 0.1). 6. In carnivores, artiodactyls, primates and bats the slopes for lifetime standard as well as lifetime active energy budgets are not significantly different from one in any of the investigated data sets. 7. In rodents the lifetime standard energy budgets have slope significantly different from one; in marsupials one data set for lifetime standard and the one for lifetime active energy budget lead to slopes significantly different from one. 8. It is concluded from this analysis that current data do not support the hypothesis that lifetime energy budgets, whether standard or active, vary as the first power of body mass in mammals generally.(ABSTRACT TRUNCATED AT 250 WORDS)     

Energetic Macroevolution of Vertebrates

An analysis of our own data and published data on comparable standard metabolism in vertebrates has been carried out. It was shown that within each family and most of the orders this parameter varies insignificantly and the mean values for the comparable standard metabolism are grouped around certain values presumably corresponding to the stationary states to which organisms aspire in the course of evolution. There was a significant difference in the comparable standard metabolism in poikilothermic and homeothermic animals, apparently related to the existence of a heat barrier, which is overcome by the appearance of thermoregulation. In total, seven levels of stationary states were distinguished for vertebrates and 12 of them for all animals. It was established that the ratio of the values of the comparable standard metabolism for neighboring levels varies insignificantly and is ~2.2. It was noted that in the process of macroevolution of phyla and classes, their constituent units occupy ever higher stationary levels. A possible mechanism of transition from one stationary level to another is discussed.     

Ecological, functional, and thermodynamic prerequisites and consequences of homoeothermy origin and development, with avian energetics as a case study

Homoeothermy has formed in birds and mammals independently and in different geological ages. However, in both groups it originated as a side effect of selection for aerobic metabolism improvement that provided a higher level of activity. Advantages of having high and stable body temperature, which are inevitably related with metabolism intensification, led to development of thermoregulatory adaptations such as fur and feathers. This made it possible to retain the metabolically generated heat and reduce heat absorption in hot environments. Emergence of homoeothermy with aerobic supply of motion activity, possibilities to regulate the level of metabolism and thermolysis, has opened a lot of opportunities for homoeothermic animals. Achieving such a level of energy utilization allowed them to maintain activity for a longer time, while its sensory support led to complication and diversification of birds' behavioral repertoire (as well as that of mammals) facilitating the conquest of almost entire part of the biosphere that is suitable for living. This process was favoured by the development of nurturing and passing on the information, collected throughout the life, to new generations. Formation of high levels of aerobic metabolism in birds and mammals was proceeding in parallel among different groups of reptilian ancestors. The level of homoeothermy, at which aerobic metabolism is able to maintain prolonged activity, developed in birds and mammals in different ways: they have got dissimilar partitioning of venous and arterial networks, erythrocytes with or without a cell nucleus, different lungs design--but, at that, similar minimum metabolic power and rather close body temperatures which correspond well to the environmental conditions on the Earth. Natural selection allowed animals with high energetic metabolism to increase their diversity and abundance, but only when homoeothermic animals could satisfy their demands for food resources, that have risen manifold. That happened in the middle of Cretaceous, in time with the appearance of angiosperms and expansion of related fauna of invertebrates.     

Comparative study of the lamina cribrosa and the pial septa in the vertebrate optic nerve and their relationship to the myelinated axons

The optic nerve contains the connective tissues, i.e. the lamina cribrosa and pial septa. This report presents a histological comparison of the lamina cribrosa and pial septa in the five classes (mammals, birds, reptiles, amphibians and teleosts) of vertebrates. Furthermore, the distribution of myelinated fibers was observed from the optic nerve through the retina in the same animals. The lamina cribrosa is found in mammals except for mice, and in birds. Structural complexity of the lamina was different in animals but generally dependent of the optic nerve thickness. The pial septa were present in the optic nerve proper of the mammals except for the mice, in birds and in a part of teleosts. Fasciculation of the optic nerve by the pial septa tended to be more prominent as the optic nerve become thicker. The optic nerve consisted of largely myelinated fibers in vertebrates. The retina contained some myelinated fibers in submammals but was thoroughly devoid of myelinated fibers in mammals. The borderline between myelinated and unmyelinated portions in the optic nerve of different species did not related to the lamina cribrosa. Amphibians had exceptionally only a few myelinated fibers in the optic nerve and no myelinated fibers in the retina.     

Lactoseries carbohydrate epitopes in the vertebrate retina

The distribution of N-acetyl-lactosamine (NALA), a cell-surface carbohydrate epitope of the lactoseries, has been studied in the retina of representative species of all vertebrate classes by light microscope immunohistochemistry. In only some species of different classes (fish, amphibia and mammals) was NALA expression detected, and in these animals the distribution showed profound interspecies variability. In fishes and amphibia in which NALA was present, patterns ranged from single immunopositive cells to homogeneous labelling of cell layers. In mammals, NALA was found only in retinas that are cone dominated (tree squirrel and primates). In the tree squirrel, there was a dense cellular staining of the photoreceptor cell layer; whereas in primates, the carbohydrate epitope occur red only on some photoreceptor cells. From these receptor cells, positi ve axons could be traced to the inner plexiform layer. In spite of the profound interspecies differences, NALA is not randomly expressed, as its exclusive expression in mammals with cone- dominated vision indicates. The suggestion of a functional relevance for NALA glycosylation of retinal cells is supported by the labelling pattern for HNK-1 in these species, which was different from the pattern found in rod-dominated mammalian retinas. This revised version was published online in November 2006 with corrections to the Cover Date.     

NMR spectroscopy based metabonomic studies on the comparative biochemistry of the kidney and urine of the bank vole (Clethrionomys glareolus), wood mouse (Apodemus sylvaticus), white toothed shrew (Crocidura suaveolens) and the laboratory rat

The metabolic profiles of three wild mammals that vary in their trophic strategies, the herbivorous bank vole (Clethrionomys glareolus), the granivorous wood mouse (Apodemus sylvaticus), and the insectivorous white-toothed shrew (Crocidura suaveolens), were compared with that of a widely used strain of laboratory rat (Sprague Dawley). In conjunction with NMR spectroscopic investigations into the urine and blood plasma composition for these mammals, high resolution magic angle spinning (HRMAS) 1H-nuclear magnetic resonance (NMR) spectroscopy was applied to investigate the composition of intact kidney samples. Adaptation to natural diet affects both renal metabolism and urinary profiles, and while these techniques have been used to study the metabolism of the laboratory rat little is known about wild small mammals. The species were readily separated by their urinary profiles using either crude metabolite ratios or statistical pattern recognition. Bank vole urine contained higher concentrations of aromatic amino acids compared with the other small mammals, while the laboratory rats produced relatively more hippurate. HRMAS 1H-NMR demonstrated striking differences in both lipid concentration and composition between the wild mammals and Sprague Dawley rats. Bank voles contained high concentrations of the aromatic amino acids phenylalanine, tyrosine and tryptophan in all tissue and biofluids studied. This study demonstrates the analytical power of combined NMR techniques for the study of inter-species metabolism and further demonstrates that metabolic data acquired on laboratory animals cannot be extended to wild species.     

Mechanism of metabolic adaptation

The paper presents results of investigations on some mechanisms of metabolic adaptation in mammals. There are four sections in the tissue metabolic system of acid-base homeostasis: polyamines as factors of metabolic adaptation; significance of carbon dioxide for metabolic response formation in hypobiosis; polyamines metabolism in hypobiosis. Peculiarities of intermediate metabolism have been analyzed in animal tissues under the changes in H+, CO2 and HCO3- concentrations. Basing on a new interpretation of the experimental data and detected regularity in the metabolism, conclusion on the existence of a new acid-base homeostasis system in the tissues has been made. The results of polyamines metabolism investigations in the mammals under the stress have been described. The experimental data make us to believe that changes in polyamines synthesis and ODC activity in particular, is a part of stereotype nonspecific response to any stress impacts and one of the factors of cell metabolic adaptation. Some new data on mechanisms of formation and control of metabolic status of animals in the natural and artificial hibernation have been presented. The key idea is that in the state of hypobiosis the carbon dioxide (HCO3-) appears as a regulatory factor of metabolic adaptation, which is able to realize its action directly via affecting numerous biochemical events. The participation of polyamines in adaptive metabolic response to hybernation factors is suggested. Some peculiarities of ornithine decarboxilase and transglutaminase activity during the different stages of genuine and artificial hypobiosis have been demonstrated.     

Energetics, body size, and the limits to endothermy

The scaling rate of metabolism with respect to body mass is analysed. Scaling of heat production implies that scaling also exists between temperature regulation and body mass. Most vertebrates follow a Kleiber relation down to a "critical mass, below which the scaling of metabolism must be changed to ensure the maintenance of endothermy. Such an adjustment is found interspecifically in birds and mammals, and is found intraspecifically in mammals during post-natal growth. If the Kleiber scaling relation is maintained below the critical mass, mammals and birds shiR from endothermic temperature regulation (above critical mass) to endothermy with obligatory torpor (below critical mass). If the Kleiber relation is followed to masses far below the critical mass, ectothermy results. Critical mass varies inversely with the level of energy expenditure, which therefore accounts for the fact that most mammals and birds are endotherms and most reptiles and fish are ectotherms. The same relationship permits the facultative endothermy found in some insects and plants.
The scaling relations existing among rate of metabolism, endothermy, and body mass can be written as a modification of the Kleiber relation. This analysis suggests that any organism, irrespective of phylogenetic position, can be endothermic at any body size, if its rate of metabolism is high enough, or can be endothermic with any rate of metabolism, if it is large enough. Consequently, it is difficult to distinguish minimal endothermy from inertial homoiothermy in animals having a large mass. The boundary conditions for effective endothermy are similar to the relationship described between metabolism and mass in the evolution of endothermy through a decrease in mass in the phylogeny of mammals. Even though endothermy may evolve with an increase in mass, its perfection may always require an evolutionary decrease in mass.     

Hypometabolic induced state: a potential tool in biomedicine and space exploration

This paper will first review the issue of hypometabolism in mammals with a focus on the strategies these animals evolved to cope with life challenge in hostile environments (e.g., cold weather and/or shortage of food). The different types of natural hypometabolism (hibernation, torpor, winter sleep) will be briefly described as well as major adaptations in body temperature, and energy and cell metabolism. In the second part of this review the issue of inducing a hypometabolic state in mammals will be afforded with special attention paid to changes in body temperature and metabolism, regulation of gene expression and the possible role of hibernation inducing factors. Finally, an overview of the potential of inducing a hypometabolic state in the human as related to the broad field of biomedicine will be given.     

The regulation of organ size in Drosophila: physiology, plasticity, patterning and physical force

The correct regulation of organ size is a fundamental developmental process, the failure of which can compromise organ function and organismal integrity. Consequently, the mechanisms that regulate organ size have been subject to intense research. This research has highlighted four classes of mechanism that are involved in organ size regulation: physiology, plasticity, patterning and physical force. Nevertheless, how these mechanisms are integrated and converge on the cellular process that regulate organ growth is unknown. One group of animals where this integration is beginning to be achieved is in the insects. Here, I review the different mechanisms that regulate organ size in insects, and describe our current understanding of how these mechanisms interact. The genes and hormones involved are remarkably conserved in all animals, so these studies in insects provide a precedent for future research on organ size regulation in mammals.     

中国哺乳动物生理生态学研究进展与展望

中国哺乳动物生理生态学研究自20世纪50年代始,经过70多年的发展,已系统研究了分布于青藏高原、内蒙古草原、横断山脉等地理分布区的代表性物种的生理适应性,研究主题包括能量代谢和体温调节、冬眠（蛰眠）、水代谢、生态免疫、肠道菌群与宿主的能量代谢和产热调节,研究物种以小型哺乳动物为主。在新时期除了进一步加强对极端环境的生理适应研究外,也需关注大型动物对环境的生理适应,发展新兴领域如保护生理学等,同时要借助多组学技术、同位素技术、遥感技术、红外技术等,加强对动物生理适应的机理性探究。本文回顾了中国哺乳动物生理生态学的发展历程,总结了主要领域取得的重要进展。     

Bioenergetics in human evolution and disease: implications for the origins of biological complexity and the missing genetic variation of common diseases

Two major inconsistencies exist in the current neo-Darwinian evolutionary theory that random chromosomal mutations acted on by natural selection generate new species. First, natural selection does not require the evolution of ever increasing complexity, yet this is the hallmark of biology. Second, human chromosomal DNA sequence variation is predominantly either neutral or deleterious and is insufficient to provide the variation required for speciation or for predilection to common diseases. Complexity is explained by the continuous flow of energy through the biosphere that drives the accumulation of nucleic acids and information. Information then encodes complex forms. In animals, energy flow is primarily mediated by mitochondria whose maternally inherited mitochondrial DNA (mtDNA) codes for key genes for energy metabolism. In mammals, the mtDNA has a very high mutation rate, but the deleterious mutations are removed by an ovarian selection system. Hence, new mutations that subtly alter energy metabolism are continuously introduced into the species, permitting adaptation to regional differences in energy environments. Therefore, the most phenotypically significant gene variants arise in the mtDNA, are regional, and permit animals to occupy peripheral energy environments where rarer nuclear DNA (nDNA) variants can accumulate, leading to speciation. The neutralist–selectionist debate is then a consequence of mammals having two different evolutionary strategies: a fast mtDNA strategy for intra-specific radiation and a slow nDNA strategy for speciation. Furthermore, the missing genetic variation for common human diseases is primarily mtDNA variation plus regional nDNA variants, both of which have been missed by large, inter-population association studies.     

Requirements for carotenoids in fish diets

Carotenoids are among the most widespread and important pigment classes in living organisms, and in marine animals, astaxanthin is the most commonly occurring red carotenoid. Carotenoids are vitamin A precursors and are fundamental in photosynthesis and light protection in plants. Increasing attention has been drawn to a possible light protection, cancer prevention and immune enhancement by carotenoids in mammals. Reported functions in fish range from a general enhancement of performance to specific functions in reproduction and metabolism. In this paper, we show that astaxanthin is essential for growth and survival of fish and crawfish, and discuss this fact in relation to the use of purified and semipurified diets in nutritional studies. The similarity in action of astaxanthin and canthaxanthin compared to α-tocopherol (vitamin E) and retinol (vitamin A) suggests that these two carotenoids should be listed among the fat soluble vitamins.     

横断山区三种小型哺乳动物代谢特征的研究进展

代谢率是生理生态学中的重要指标,能反映不同物种和个体之间的能量消耗水平,在动物适应环境的过程中具有重要的意义,各种不同的物理和生物因素都可能影响到动物的代谢特征。本文综述了体重和温度对横断山区小型哺乳动物中缅树鼩、大绒鼠和高山姬鼠代谢率的影响,比较了3种小型哺乳动物与其它地区小型哺乳动物的异同点,并给出了横断山区小型哺乳动物特殊的一些代谢特征。最后,通过比较代谢产热特征探讨了中缅树鼩的起源问题。     

Pattern of evolutionarily distinct species among four classes of animals and their conservation status: a comparison using evolutionary distinctiveness scores

The percentage of species with high evolutionary distinctiveness (ED) scores in four different classes was related to conservation concern. We considered the number of species belonging to the upper level of the distribution of ED scores, and the overall distribution of ED scores in each category of concern assigned by IUCN. Generalized linear and mixed models were used to explore the relationship between variables, separately for each animal class. Overall values of ED score were higher for Squamates, Rhynchocephalia and amphibians than mammals and birds. However, the frequency distribution of ED scores was similar among classes, with a leptokurtotic distribution. Amphibians, reptiles, birds and mammals showed a markedly right skewed distribution, with a similar proportion of species in each equal category of the distribution. In all classes, the number of species with the highest ED score (positioned in the upper 20% of the frequency distribution of the variable) was very small ranging between 0.01 and 0.05%. ED score was slightly but negatively correlated with IUCN conservation status in amphibians, but unrelated in the other three classes. The bird population trend was unrelated to ED score of bird species in both USA and Europe. Also, the population’s trend for selected mammal species was unrelated to the ED score of those species. Our results provide more evidence that distribution shape of ED of animal forms is uniform among classes, with only very few species characterized by highest ED scores in each group. Surprisingly, ED score and IUCN conservation status were unrelated in the four classes examined. Finally, our study underlines that declining animals are not necessarily the most evolutionarily distinct species.     

Exposure of small mammals to ticks and rickettsiae in Atlantic Forest patches in the metropolitan area of Recife, North-eastern Brazil

Between December 2007 and March 2009, small mammals were captured in 6 Atlantic Forest patches in Brazil. We assessed tick-host associations and whether they differ among forest strata, sites, seasons, and host age classes or between sexes. Moreover, we assessed the exposure of animals to Rickettsia spp. In total, 432 animals were captured and 808 ticks were found on 32·9% of them. Significant differences were found among host species, collection sites, and forest strata; microhabitat preference was a strong risk factor for tick infestation. The highest tick density rates were recorded in forest fragments settled in rural areas; 91·3% of the ticks were collected from animals trapped in these forest fragments. A high prevalence (68·8%) of antibodies to Rickettsia spp. was detected among animals. This study suggests that disturbed Atlantic Forest fragments provide an environment for ticks and small mammals, which are highly exposed to rickettsiae. It also indicates that forest patches settled in rural areas are usually associated with higher small mammal diversity as well as with higher tick density rates.     

FATTY ACIDS AND LONG CHAIN BASES OF VERTEBRATE BRAIN GANGLIOSIDES

Abstract— Fatty acid and long-chain base composition of gangliosides from brains of animals belonging to various vertebrate classes (fishes, amphibia, reptiles, birds and mammals) was studied by gas-liquid chromatography. Stearic acid was found to be the main fatty acid everywhere. Brain gangliosides of cold-blooded animals contain lesser amounts of stearic and higher amounts of palmitic and monoenoic acids as compared to those of mammals. Long-chain bases were separated as trimethylsilyl derivatives. Large amounts (23-48 per cent) of long chain bases with 20 carbon atoms were found in brain gangliosides of mammals while in those of cold-blooded animals they constitute 3-12 per cent of the total. The comparison of the composition of gangliosides with that of cerebrosides and sulphatides indicates, that the fatty acid and long chain base composition of gangliosides from mammalian brain differs from that of other glycosphingolipids, whereas in brains of cold-blooded animals they are much more similar.