Vol 53, No 2 (2017)

The review discusses the role of omnipresent transcription factors of the NF1 family in the development, establishment and regulation of tissue-specific gene expression in multicellular organisms with a different degree of complexity. The molecular mechanisms underlying the effect of these transcription factors on the development of tissues in the evolutionary lineage of multicellular animals are analyzed.

A comparative analysis of enzymological characteristics of cholinesterase (ChE) and monoamine oxydase (MAO) from the optic ganglia was performed in the Pacific squid Todarodes pacificus and Commander squid Berryteuthis magister caught in their four habitats across the Pacific Northwest. A substrate–inhibitor analysis revealed a homogeneity of T. pacificus and B. magister ChE preparations as well as homogeneity of T. pacificus vs. heterogeneity of B. magister MAO preparations. In case of thiocholine derivatives, the rate of hydrolysis induced by T. pacificus ChE was practically independent of the structure of the acyl group, whereas in case of B. magister ChE it was found to decrease in this substrate series. It is only T. pacificus MAO that was found to be able to deaminate also a diaminooxydase substrate histamine. ChE activity was higher in T. pacificus than in B. magister for the whole substrate series, while for MAO the same activity pattern was observed for tyramine, tryptamine and serotonin. In both squids, the sensitivity of ChE to organophosphorus inhibitors containing the dimethylbutyl group was by several orders of magnitude higher than that in mammals. The sensitivity of ChE to the siloxane reversible inhibitors was lower in T. pacificus ChE and much lower in B. magister than in mammals.

This study addresses the influence of combinations of two encoded amino acids with opposite, memory-inhibiting and memory-enhancing, effects on short-term and long-term memory formation in the honeybee. Experimentation was based on the classical proboscis extension response conditioning by a single-trial exposure to clove odor with a sucrose solution reward. The presence of the acquired conditioned response was tested 1 min (short-term memory) and 180 min (long-term memory) after the learning trial. The data obtained suggest a stimulatory (memory-enhancing) effect of the combination of two amino acids, individual effects of which are opposite. The stimulatory amino acid was present in the mixture in all the trials (8 combinations) at a subthreshold concentration, i.e. it did not influence memory formation. In some trials, the stimulatory effect of an amino acid mixture (for example, stimulatory aspartic acid combined with inhibitory lysine or serine) significantly exceeded that of a single stimulatory amino acid applied at a threshold concentration. Interestingly, the effect of amino acid combinations on memory formation in honeybees resembles their effect on cell proliferation in rat tissue explants of various origin.

The effect of serotonin solutions on the locomotor activity of cercariae with different swimming patterns, Cryptocotyle lingua and Himasthla elongate, was investigated during their lifespan using motion track analysis and a frame-by-frame count of behavioral elements. Serotonin caused a noticeable alteration of several locomotion parameters in both species studied, while the activity per se decreased significantly with age. In intermittently swimming C. lingua cercariae, serotonin induced an increase in the frequency of active swimming phases (spurts) without significant changes in the duration and velocity of the spurts themselves. In continuously swimming H. elongata cercariae, serotonin increased the number of stops during the first hour after the emission from the host mollusk under a constant average swimming velocity. Immunocytochemical visualization of serotonin revealed a decline in its level with age (time after emission) and different dynamics of this process in neurons located in the tail and body of C. lingua cercariae. The data are interpreted in the light of the modulatory role of serotonin known for other animals.

Immunoreactivity for calcium-binding proteins parvalbumin (PV) and calbindin (CB) was studied in the pigeon (Columba livia) telencephalic auditory center. All its regions displayed overlapping distribution patterns of PV and CB immunoreactivity, although in the central (L2) vs. peripheral (L1, L3, CMM) layers they were dissimilar. L2 and the inner L1 sublayer (L1i) were distinguished by a higher immunoreactivity of neuropil for both proteins and the presence (in L2) of numerous small densely packed granular-type cells: heavily stained PV-ir and, as a rule, poorly stained CB-ir neurons. In Lli, the number of neurons and the density of neuropil immunoreactive to both proteins decreased. The outer L1 sublayer (L1e) as well as L3 and CMM were characterized by a generally lesser density and irregular distribution of immunoreactive neuropil and a heterogenous repertoire of PV-ir and CB-ir neurons referring to diverse morphological types, with an increased number of large multipolar cells. The differences in PV and CB immunoreactivity among different regions of the pigeon telencephalic auditory center revealed the similarity of the latter to the laminar auditory cortex in mammals.

The tasks, methods and principles of the evolution of functions are overviewed at various levels of organization of physiological systems with the focus on the central problem of physiological evolution—the origin of life and formation of protocellular functions. This stage of evolution is associated with the emergence of the plasma membrane and ion asymmetry of the cell relative to the extracellular environment. For a long time, evolution proceeded in the sea, where extracellular sodium ions in tandem with the intracellular potassium dominance created conditions for the emergence of electrogenesis, polar cells and epithelia, as well as for the formation of the extracellular body fluid system, making up the internal environment of multicellular organisms. The features of the evolution of organs and functional systems are analyzed. During evolution, hormones, autakoids and incretins began to be involved in the regulation of functions alongside with the nervous system. Sodium-dependent processes in the plasma membrane stimulated the development of absorptive, digestive, excretory, respiratory and homeostatic functions. The substance and patterns of functional evolution are discussed.