Augusto Foà

A blind circadian clock in cavefish reveals that opsins mediate peripheral clock photoreception

Evolution during millions of years in perpetual darkness leads to mutations in non-visual opsin genes (Melanopsin and TMT opsin) and an aberrant, blind circadian clock in cavefish.

Daily and Circadian Rhythms of Tissue Factor Pathway Inhibitor and Factor VII Activity

Objective—Diurnal variations in levels of factor VII (FVII), FVIII, proteins C and S, antithrombin, plasminogen activator inhibitor-1, prothrombin fragment F1+2, and D-dimers in healthy humans point to the existence of circadian rhythms of coagulation factors. We sought for temporal fluctuations of tissue factor pathway inhibitor (TFPI) activity in human and mouse plasma. Methods and Results—TFPI activity showed significant daily variations with highest levels in the morning in healthy men (+11%) and in mice at the light-to-dark transition (+63%), the beginning of the physically active period. Variations in FVII activity paralleled those in TFPI. In mice, the feeding schedule had a strong impact on these rhythms. Although restricted feeding and fasting shifted the peak of TFPI, the FVII peak disappeared. Investigation of temporal fluctuations in constant darkness indicated the existence of daily rhythms for TFPI and of true circadian rhythms for FVII. Conclusions—For the first time, we report, both in humans and mice, temporal variations in TFPI activity. The coherent variations in FVII and TFPI activity could interplay to maintain the coagulation equilibrium. The chronobiological patterns should be considered to analyze activity levels of these factors. Moreover, the mouse model could be exploited to investigate modifiers of coagulation rhythms potentially associated to morning peaks of cardiovascular events.

Does pigeon homing depend on stimuli perceived during displacement

SummarySimilar experiments as described in part I (Wallraff, 1980b) were conducted in Italy. 12 releases at distances of 80–180 km showed, in most cases, similar behaviour of “cueless” transported pigeons and control pigeons, but some gradual difference in the degree of homeward directedness and, at least sometimes, in homing speed. This suggests that, in the area investigated, stimuli perceived during displacement contribute to the orientation behaviour of the birds after release. Usually, however, successful homing does not depend on these stimuli. The experiments suggest the conclusion that there is some (minor) difference in the mode of pigeon navigation in different geographic areas, probably depending on varying environmental conditions.

Evidence for an Overlapping Role of CLOCK and NPAS2 Transcription Factors in Liver Circadian Oscillators

ABSTRACT The mechanisms underlying the circadian control of gene expression in peripheral tissues and influencing many biological pathways are poorly defined. Factor VII (FVII), the protease triggering blood coagulation, represents a valuable model to address this issue in liver since its plasma levels oscillate in a circadian manner and its promoter contains E-boxes, which are putative DNA-binding sites for CLOCK-BMAL1 and NPAS2-BMAL1 heterodimers and hallmarks of circadian regulation. The peaks of FVII mRNA levels in livers of wild-type mice preceded those in plasma, indicating a transcriptional regulation, and were abolished in Clock−/−; Npas2−/− mice, thus demonstrating a role for CLOCK and NPAS2 circadian transcription factors. The investigation of Npas2−/− and ClockΔ19/Δ19 mice, which express functionally defective heterodimers, revealed robust rhythms of FVII expression in both animal models, suggesting a redundant role for NPAS2 and CLOCK. The molecular bases of these observations were established through reporter gene assays. FVII transactivation activities of the NPAS2-BMAL1 and CLOCK-BMAL1 heterodimers were (i) comparable (a fourfold increase), (ii) dampened by the negative circadian regulators PER2 and CRY1, and (iii) abolished upon E-box mutagenesis. Our data provide the first evidence in peripheral oscillators for an overlapping role of CLOCK and NPAS2 in the regulation of circadianly controlled genes.

The effect of olfactory deprivation by nasal tubes upon homing behavior in pigeons

Summary1.As a test of the importance of olfaction to the navigational system of homing pigeons, a method of olfactory deprivation, the insertion of plastic tubes through the nostrils, has been employed. Birds wearing the tubes, and untreated controls, were singly released from two sites: a familiar one west of the loft, from which the birds had been released without tubes eight times previously, and an unfamiliar site south of the loft.2.From the unfamiliar site anosmatic birds showed drastically impaired homing ability, both in terms of vanishing bearings and homing success (only 6 of 33 homing on the day of release vs. 33 of 36 controls). From the familiar site, tube-equipped birds showed homing performance which was only marginally poorer than that of controls.3.The latter experiment shows that the effect of olfactory deprivation on homing is not a general behavioral influence on, for example, homing motivation, but is a consequence of the central importance of olfactory cues in determining home direction from unfamiliar territory. Anosmatic birds do home from familiar sites, presumably using an auxiliary pilotage mechanism relying on visual landmarks or other local cues.

The circadian system of reptiles: a multioscillatory and multiphotoreceptive system.

Many parameters exhibited by organisms show daily fluctuations that may persist when the organisms are held in constant environmental conditions. Rhythms that persist in constant conditions with a period close to 24 h are called circadian. Although nowadays most research in this field is focused on the molecular and genetic aspects--and therefore mostly on two animal models (Drosophila and mouse)--the study of alternative animal models still represent a useful approach to understanding how the vertebrate circadian system is organized, and how this fascinating time-keeping system has changed throughout the evolution of vertebrates. The present paper summarizes the current knowledge of the circadian organization of Reptiles. The circadian organization of reptiles is multioscillatory in nature. The retinas, the pineal, and the parietal eye (and, possibly, the suprachiasmatic nuclei of the hypothalamus, SCN) contain circadian clocks. Of particular interest is the observation that the role these structures play in the circadian organization varies considerably among species and within the same species in different seasons. Another remarkable feature of this class is the redundancy of circadian photoreceptors: retinas of the lateral eyes, pineal, parietal eye, and the brain all contain photoreceptors.

The role of the pineal and the retinae in the expression of circadian locomotor rhythmicity in the ruin lizard, Podarcis sicula

SummaryA marked interspecific variability in the role played by the pineal and the retinae characterizes the circadian system of lizards. I examined the role played by these structures in a new model species, the ruin lizard, Podarcis sicula. In constant temperature and darkness pinealectomy as well as bilateral removal of the retinae produced significant changes (both lengthening and shortening) in the freerunning period of locomotor rhythms. Circadian activity time was also affected by pinealectomy. Circadian locomotor rhythmicity persisted in all cases even when both operations were combined in the same individuals. This demonstrates in Podarcis sicula the existence of an oscillatory system outside the pineal and the retinae which can drive locomotor rhythms. The period changes recorded after pinealectomy as well as after bilateral removal of the retinae specifically suggest that both the pineal and the retinae play a modulating role on circadian oscillators located elsewhere in the system, with the final effect of stabilizing the overt rhythms.

Influence of Fasting and Exercise on the Daily Rhythm of Serum Leptin in the Horse

The hormone leptin is secreted by white adipocytes and regulates food intake and energy expenditure in rodents and humans. The goal of the present study was to investigate the existence of a daily rhythm of serum leptin in horses and its dependence on fasting and physical exercise. A robust daily rhythm of leptin was found in both athletic and sedentary horses, with a daytime trough and a peak in the dark phase. While physical exercise never induced changes in circulating leptin, fasting reliably affected serum leptin levels. Food deprivation did not abolish the daily rhythm of serum leptin, but daily mean leptin levels in fasted horses were significantly lower than in regularly fed horses. This result indicates that leptin production is not a mere consequence of feeding behavior. The fact that in a large animal such as the horse a short fast decreases leptin without significantly changing the body weight demonstrates that changes in levels of circulating leptin associated with food restriction do not solely reflect changes in amount of body fat.

Extraocular Photoreception and Circadian Entrainment in Nonmammalian Vertebrates

In mammals both the regulation of circadian rhythms and photoperiodic responses depend exclusively upon photic information provided by the lateral eyes; however, nonmammalian vertebrates can also rely on multiple extraocular photoreceptors to perform the same tasks. Extraocular photoreceptors include deep brain photoreceptors located in several distinct brain sites and the pineal complex, involving intracranial (pineal and parapineal) and extracranial (frontal organ and parietal eye) components. This review updates the research field of the most recent acquisitions concerning the roles of extraocular photoreceptors on circadian physiology and behavior, particularly photic entrainment and sun compass orientation.

Orientation of anosmatic pigeons

SummaryTest releases performed at five symmetrically arranged sites around the loft, at a distance of 78–99 km from it, showed that 1) anosmatic birds transported without alteration of the earths magnetic field were completely random-oriented, 2) anosmatic birds transported in a container inside which the intensity of the magnetic field was strongly reduced were unable to orientate homewards and mostly departed according to a preferred compass direction, 3) control birds, which could smell, and were transported without alteration of the magnetic field, were homeward oriented and performed better in homing than both experimental groups. The conclusion is that anosmatic birds are unable to detect home direction at unfamiliar sites and that magnetic stimuli perceived during the outward journey are unable to substitute olfactory cues.