Differentiation and development of testis in the oviparous lizard, Calotes versicolor (Daud.)

The differentiation and development of the testis in the lizard Calotes versicolor was studied histologically and histoenzymatically from the day of oviposition (stage 27) to 2 months after hatching. The study reveals the appearance of the gonadal component as a genital ridge at stage 27. The first sign of testis differentiation is observed at stage 33, which displays a well-developed medulla consisting of seminiferous cords comprising Pre-Sertoli cells. The sex differentiation of the embryonic gonads occurs at stage 34. At this stage, seminiferous cords of the testis are prominent and extensive with many pre-Sertoli cells and few spermatogonia. The interstitial space consists of immature fibroblast-type Leydig cells. Pre-Sertoli cells of the seminiferous cords differentiate into Sertoli cells with a triangular nucleus becoming apparent around stages 36-37. The fibroblast-like Leydig cells differentiate into round matured Leydig cells at stage 40. Quantitative estimation of germ cells reveals that the number of germ cells increases in individual gonads, and in 5-day-old hatchling's, this number multiplies by manifold. Spermatogonia show reductional division in the testis of 1-day-old hatchlings.Histochemical localization of Delta5-3beta-HSDH and G-6-PDH activity appears in the seminiferous cords (medulla) of the testis after sexual differentiation (stage 36), indicating that the embryonic medulla is the site of steroidogenesis and not the cortex in C. versicolor. This study also suggests that morphological differentiation of the gonad precedes detectable steroidogenesis in this species. In 10-day-old hatchling's, Delta5-3beta-HSDH activity is seen in the interstitial cells of the testis, which, however, is not detected in the seminiferous tubules. The intensity of the enzyme activity remains more or less the same in the testis up to 10 days after hatching and begins to increase thereafter. The increase in steroidogenesis parallels the progressive post-hatching increase of the interstitial/Leydig cells.     

Two distinct origins for Leydig cell progenitors in the fetal testis

During the differentiation of the mammalian embryonic testis, two compartments are defined: the testis cords and the interstitium. The testis cords give rise to the adult seminiferous tubules, whereas steroidogenic Leydig cells and other less well characterized cell types differentiate in the interstitium (the space between testis cords). Although the process of testis cord formation is essential for male development, it is not entirely understood. It has been viewed as a Sertoli-cell driven process, but growing evidence suggests that interstitial cells play an essential role during testis formation. However, little is known about the origin of the interstitium or the molecular and cellular diversity within this early stromal compartment. To better understand the process of mammalian gonad differentiation, we have undertaken an analysis of developing interstitial/stromal cells in the early mouse testis and ovary. We have discovered molecular heterogeneity in the interstitium and have characterized new markers of distinct cell types in the gonad: MAFB, C-MAF, and VCAM1. Our results show that at least two distinct progenitor lineages give rise to the interstitial/stromal compartment of the gonad: the coelomic epithelium and specialized cells along the gonad–mesonephros border. We demonstrate that both these populations give rise to interstitial precursors that can differentiate into fetal Leydig cells. Our analysis also reveals that perivascular cells migrate into the gonad from the mesonephric border along with endothelial cells and that these vessel-associated cells likely represent an interstitial precursor lineage. This study highlights the cellular diversity of the interstitial cell population and suggests that complex cell–cell interactions among cells in the interstitium are involved in testis morphogenesis.     

Resistance of Erythrocytes of Hibernating Mammals to Loss of Potassium during Hibernation and during Cold Storage

In two species of hibernators, hamsters and ground squirrels, erythrocytes were collected by heart puncture and the K content of the cells of hibernating individuals was compared with that of awake individuals. The K concentration of hamsters did not decline significantly during each bout of hibernation (maximum period of 5 days) but in long-term bouts in ground squirrels (i.e. more than 5 days) the K concentration of cells dropped significantly. When ground squirrels were allowed to rewarm the K content of cells rose toward normal values within a few hours. Erythrocytes of both hamsters and ground squirrels lose K more slowly than those of guinea pigs (nonhibernators) when stored in vitro for up to 10 days at 5°C. In ground squirrels the rate of loss of K during storage is the same as in vivo during hibernation, and stored cells taken from hibernating ground squirrels also lose K at the same rate. The rate of loss of K from guinea pig cells corresponded with that predicted from passive diffusion unopposed by transport. The actual rate of loss of K from ground squirrel cells was slower than such a predicted rate but corresponded with it when glucose was omitted from the storage medium or ouabain was added to it. Despite the slight loss of K that may occur in hibernation, therefore, the cells of hibernators are more cold adapted than those of a nonhibernating mammal, and this adaptation depends in part upon active transport.     

Influence of ionizing radiation on the condition of the protein-synthesizing system in ground squirrel brain neurons at different functional states

It was shown by fluorescent and electron microscopy that the physiological state of ground squirrels subjected to ionizing radiation at different phases of the torpor-normothermia cycle plays a determining role in the alteration of the conditions of the protein-synthesizing system in neurons of hippocampus fields CA1 and CA3 and sensomotor area of the brain. In ground squirrels irradiated under normothermia, the neurons were less radioresistant and restored slower compared with torpor animal cells, the distinctions being most expressed in CA1 field neurons. The effect of irradiation was minimum during the entrance into torpor and maximum during arousal. It was supposed that the inhibition of protein synthesis in the latter case occurred at the elongation stage when heavy polyribosomes were formed in neuron cytoplasm.     

Effect of ionizing radiation on the synthetic activity of blood system cells in ground squirrels in different physiological states of animals

The functional (synthetic) activity of blood lymphocytes and bone marrow haemopoietic cells in ground squirrels during the annual cycle as well as in hibernating and awaken animals in winter have been studied by fluorescent microspectrometry. The effect of ionizing radiation on animals in different functional states of the hibernation-arousal bout was investigated too. It was shown that the synthetic activity (parameter alpha) in blood lymphocytes was minimal in hibernating state in winter and maximal in active euthermic spring animals, then slightly decreased in June and more considerably decreased in the prehibernating autumn period. In awake animals in winter, the values of parameter alpha reached the same values as in summer. The changes of parameter alpha in bone marrow haemopoietic cells were essentially the same: the minimal values were observed in the prehibernation autumn period and in awake animals in winter the alpha values were slightly higher than in active euthermic animals in summer. The maximal synthetic activity in bone marrow haemopoietic cells in active euthermic spring animals is due mainly to cells in G1-G2 phases of the cell cycle. The decrease of the synthetic activity in summer is a result of the cell transition from G2 to mitosis and transition of a part of cells to G0 When investigating the hibernation-arousal bout in ground squirrels in winter, during arousal, we found two stages considerably differing in both the values of parameter alpha in bone marrow haemopoietic cells and the number of blood cells. The synthetic activity and the total number of blood and bone marrow cells in ground squirrels irradiated in the state of deep hibernation did not differ significantly from the state of non-irradiated hibernating animals. The negative effect of radiation appeared upon the arousal of these animals but it was expressed to a lesser degree in comparison with the animals irradiated in the active state. It was found that the acute irradiation of animals during arousal from hibernation in the second stage caused the most pronounced functional inactivation and cell death. The physiological state of ground squirrels subjected to ionizing irradiation at different phases of the hibernation-arousal bout plays a determining role in the changes of the qualitative and quantitative characteristics of blood system cells. Thus, the hypometabolic state of ground squirrels in hibernation is a factor of protection from the action of ionizing radiation on the organism and the immune system.     

Intermediate filaments and epithelial differentiation of male rat embryonic gonad

The presence and distribution of desmin, vimentin, cytokeratin, and laminin in the gonads of developing male rat embryos (11-17 days) were studied by immunocytochemistry. The findings were correlated with morphological changes of the cells and with the formation of basement membranes, as determined by electron microscopy. The surface epithelial and subepithelial cells of the meesonephros in the prospective gonadal region contained desmin. At the onset of gonadal development, vimentin appeared in the somatic cells of the thickening surface epithelium, which formed the gonadal ridge. Desmin disappeared and cytokeratins appeared in the Sertoli precursor cells at the inception of their epithelial differentiation. Simultaneously, the prospective Sertoli cells became polarized during their assembly into epithelial cell aggregates; the aggregates then fused and formed elongated testicular cords. The epithelial cell differentiation was accompanied by a deposition of basement membrane material around the cords and by an increase of desmin in the cells immediately around the cords. With further differentiation of the testicular cords, some cytokeratins from the Sertoli cells, but not from the cells of the rete cords, disappeared. On the other hand, other cytokeratin polypeptides and vimentin remained in the fetal Sertoli cells. The surface cell layer slowly differentiated towards a proper epithelium after the basic formation of the testicular cords and interstitium. Desmin and vimentin persisted in the interstitial cells throughout the entire study period. The early differentiation of the gonad is apparently under a general sex-independent initiation program. The developmental changes in intermediate filaments offer an opportunity for the further analysis of their general role in early organogenesis. In light of the genetic theory of testicular differentiation, the functions of the regulatory factor(s) include specific organization of cord cells, histological organization into looping cords rather than separated follicles, and male development of the interstitium, surface epithelium and tunica albuginea.     

Hibernation induces glutathione redox imbalance in ground squirrel intestine

Glutathione (GSH) is the major thiol-disulfide redox buffer in cells and is a critical component of antioxidant defense. Here we examined GSH redox balance in the intestinal mucosa during the annual cycle of 13-lined ground squirrels (Spermophilus tridecemlineatus). The ratio of reduced GSH to its oxidized form (glutathione disulfide, GSSG), which is an index of oxidative stress, was five-fold lower in hibernating compared with summer-active squirrels, an effect due primarily to elevated GSSG concentration in hibernators. During hibernation the total pool of GSH equivalents was lowest in squirrels undergoing arousal and highest in squirrels during interbout arousals. Hibernation decreased intestinal GSSG reductase activity by approximately 50%, but had no effect on activities of glutathione peroxidase or glucose-6-phosphate dehydrogenase. Within the hibernation season, expression of the stress protein HSP70 in intestinal mucosa was highest in squirrels entering torpor and early in a torpor bout, and lowest in squirrels arousing from torpor and during interbout euthermia. The results suggest that hibernation in ground squirrels is associated with a shift in intestinal GSH redox balance to a more oxidized state. Higher levels of HSP70 during the early phases of torpor may reflect induction of the stress response due to aberrations in protein folding or may be a mechanism to increase enterocyte tolerance to subsequent stress imposed by extended torpor or the arousal process.     

Chromatin diminution, mitotic anomalies and cell death in early mouse embryos

The Feulgen-positive particles, similar to those in the nuclei, fragments of chromosomes and the whole chromosomes, and micronuclei have been found in the cytoplasm of early mouse embryos. Some morphological peculiarities of the interphase nuclei (extrusion of nucleoli-like structures from the nuclei, so called "partial" pycnoses) and mitoses (loss of chromosomes, the pattern of distribution of condensed chromatin similar to that with C-mitosis) are described. Dead cells were found in early blastocysts. The dynamics of these phenomena was traced in the course of development starting from the 4-cell stage to the blastocyst. The high frequency of enumerated findings enables the author propose the existence of the process of chromatin degradation in normally developing mammalian embryos, which causes genetic abnormalities in some cells of the embryo. This may constitute a step of differentiation for at least provisional structures of the embryo.     

Contrasting stress response of male arctic ground squirrels and red squirrels

A hormonal-challenge protocol was used to compare the stress response of males of Arctic ground squirrels and red squirrels during the breeding season (May). These squirrels live in the same boreal forest of the Yukon, but have very different life histories and utilize the forest in markedly different ways. Red squirrels had levels of total cortisol, maximum corticosteroid-binding capacity, and free cortisol that were 5, 7, and 2 times, respectively, those of Arctic ground squirrels. Red squirrels were resistant to suppression by an artificial glucocorticoid, dexamethasone (DEX); Arctic ground squirrels were not. Cortisol levels in red squirrels responded slowly but continuously to the ACTH injection; Arctic ground squirrels responded rapidly and then stabilized. Testosterone levels in red squirrels were extremely sensitive to the challenge, being suppressed by both DEX and ACTH; levels in Arctic ground squirrels were resistant to the challenge, being modestly suppressed by DEX and stimulated by ACTH. Energy mobilization, as measured by glucose and free fatty acid responses, was not affected. Red squirrels had four times the levels of white blood cells and higher proportions of lymphocytes and lower proportions of eosinophils than Arctic ground squirrels, indicating that the latter were in worse condition immunologically. Our evidence suggests that the functions associated with the hypothalamic-pituitary-adrenal axis are compromised in breeding male Arctic ground squirrels, but not in red squirrels. We propose that in male red squirrels this axis has evolved in the context of a stable social system based on long-lived animals with individual territories which are needed to deal with unpredictable winter food supplies. In contrast, Arctic ground squirrels escape the rigors of winter by hibernation and this hormonal axis has evolved in short-lived males in the context of intense intra-sexual competition in a social system based on female kin groups and regular male dispersal to avoid inbreeding. J. Exp. Zool. 286:390-404, 2000.     

Electrophysiological characteristics of cardiac function and the intensity of protein synthesis in cardiomyocytes during the arousal of susliks from hibernation

It has been demonstrated that during winter hibernation (body temperature 2-4 degrees C), the heart rate in ground squirrels is equal to 100 10-12 beats/min. At the initial stage of the arousal, while body temperature remains still low (9-10 degrees C), the heart rate may increase up to 160-200 beats/min. At this stage, practically all electrophysiological parameters of the heart correspond to those in active animals. These results may indicate the ability of "cold" heart in arousing ground squirrels to operate as a normothermic organ and reveal certain role of the heart in body warming. Significant increase of the intensity of protein synthesis in cardiomyocytes together with periodic changes in protein composition of their membranes were found during arousal which may account for regulation of the level of metabolism in cells and for adaptation of the latter to different temperatures.     

Glia–Neuron Interactions in the Sensory-Motor Cortex of Warm-Blooded Animals (Guinea Pigs and Ground Squirrels) with Different Habitat Conditions and the M-Cholinergic Reaction of the Brain

The glia–neuron interactions were analyzed in the sensory-motor cortex of guinea pigs and ground squirrels (Spermophilus undulatus) during the active summer months. The glial cells were more concentrated in close proximity (15–25 μm) to neurons (38% in guinea pigs and 22.4% in ground squirrels). A more concentrated distribution of glial cells might be very necessary for spontaneous inactive nerve cells (37.2% in guinea pigs and 23% in ground squirrels), since these neurons are associated with the highest energy demand during their functioning and are most susceptible to disturbances of ion homeostasis. The network structure of glia and the close contact between glial cells and brain capillaries provide additional energy for neurons and stabilize the ion balance in the extracellular medium. Glial density in the sensory-motor cortex of ground squirrels is 3 times higher than that in the cortex of guinea pigs. The high content of glial cells in the ground-squirrel cortex is the most important protective factor for survival of animals during long-term hibernation, when the diffusion of K⁺ ions from nerve cells drastically increases due to the high temperature sensitivity of the M-cholinergic response.     

Cytology of oocytes in ground squirrels (Citellus citellus L.)

Oocytes of primordial, primary, growing, and Graaf follicles of the ovaries of 96 ground squirrels (Citellus citellus L.) were studied during the four seasons of the year. Multilamellar bodies in the oocytes were observed by electron microscopy. The bodies underwent changes during the follicle growth. The vesicles included in the multilamellar bodies were filled with an amorphous substance, while in Graaf follicles trapezoidal, rhomboidal, and hexagonal inclusions were found. The primordial follicle of the oocyte had no Balbiani body. In the hibernating ground squirrel the functions of the Balbiani body were probably performed by the multilamellar bodies, which were considered to be analogous to the Balbiani body.     

Prediction of the changes in thermodynamic stability of proteins caused by single amino acid substitutions

The functional (synthetic) activity of blood lymphocytes and bone marrow hematopoietic cells in ground squirrels was studied in different seasons and at different stages of the torpor-arousal cycle. The effect of γ-irradiation on animals in different physiological states was also studied. The synthetic activity of cells was estimated from the amount of active RNA per unit DNA in the cell (parameter α). The α values in lymphocytes were minimal in hibernating animals (January–March), reached a peak upon their complete awakening (April), slightly decreased in the summer activity period, and decreased further in the prehibernation autumn period (November). During winter arousals between torpor bouts, this parameter reached the same values as in summer. The dynamics of parameter α in bone marrow hematopoietic cells were generally similar: minimal values in November and higher between torpor bouts than in summer. The peak of synthetic activity of proliferating hematopoietic cells recorded upon awakening from hibernation in April was mainly due to the accumulation of cells in the G₁ and G₂ phases of the cell cycle, and its decrease in summer reflected prevalent transition from G₂ to mitosis and then partly to G₀. In the torpor-arousal-euthermia cycle, two stages of awakening were distinguished, differing considerably in most of the test parameters. The synthetic activity and the total number of blood and bone marrow cells in ground squirrels irradiated in the state of torpor did not differ significantly from those in nonirradiated torpid animals. The adverse effect of radiation in animals irradiated at the initial stage of awakening was lesser than in animals irradiated in the active state, whereas animals at the second stage of awakening proved more vulnerable to acute irradiation. The physiological state of ground squirrels exposed to ionizing radiation at different phases of the torpor-arousal-euthermia cycle plays a key role in the dynamics of qualitative and quantitative characteristics of blood system cells. The results of this study indicate that the hypometabolic state of ground squirrels during hibernation is a factor of protection from the impact of ionizing radiation on the whole body and on the immune system in particular.     

Histoenzymatic activity of the delta 5-3 beta-hydroxysteroid dehydrogenase of ovary in hibernators (Citellus citellus L)

The ovaries of 24 ground squirrels (Citellus citellus L) were studied in spring (March, April), summer (July), and winter (December). The animals hibernated in a chamber at a temperature of 6-8 degrees C. The activities of the interstitial gland, theca interna, atretic follicles with theca interna and yellow bodies were measured densitometrically and studied by a specially modified histoenzymatic technique. Measurements showed that the endocrine structures were most active in March and least active in July. The atretic follicles had the highest enzymatic activity in April. The quantitative histoenzymatic approach presents an objective base for morphofunctional studies of organs and tissues at different body temperature levels in hibernators.     

The presence of a common embryonic blastema for ovarian and testicular parenchymal (follicular,interstitial and tubular) cells in cattle,Bos taurus

Summary The early embryonic gonadal development in the cattle is characterized by the appearance of an alkaline phosphatase positive blastema. Its derivatives in gonads of both sexes, follicular cells in the female and interstitial cells in the male, also show positive alkaline phosphatase reaction. Primordial germ cells are equally alkaline phosphatase positive, but loose this activity when they later transform to oögonia and oöcytes, or to spermatogonia respectively. Using the enzyme activity as label to trace these constituents in the developmental steps of the bovine gonads, the following results were obtained.Differentiation processes leading to the appearance of the sex cords take place in situ within the gonadal blastema which occupies the main central part of the gonadal fold. It is essentially a segregation process of the follicular cell cords or of the interstitial cells and the tubular primordia from the undifferentiated common anlage.The so-called germinal epithelium is not involved in the differentiation of sex cords. Its participation — if any — in the gonadal development is restricted to a very short and rather early period. Secondary sex cords (Pflügers cords) do not occur. In the cattle there is no reason to assume a cortico-medullary antagonism in the sex determined gonadal development.It can be assumed that the follicular cells in the ovary and the interstitial cells in the testis are homologous. This applies possibly also to the tubular cells of the testis. Homology should be admitted also for the rete structures, which remain small and undeveloped in the ovary while in the male they show considerable development.In the ovary the follicular cell cords differentiating within the central blastema match in a junctional zone with the peripheral layer of oögonia. These are taken up by the most peripheral branches of the follicular cell cords, thus transforming to ovigerous cords. During the downward movement within these cords the germ cells transform to oöcytes which for their part proceed through first meiotic prophase and reach the dictyotene stage. The maturation of the germ cells seems to be controlled by the follicular cells and may even temporarily get out of control until an adequate number of follicular cells is found in vicinity of individual oöcytes to form primordial follicles.The alkaline phosphatase reaction reveals the presence of numerous persisting remnants of follicular cell cords in the developing and even adult ovary.It is suggested that the findings in the cattle gonads can be applied also to other mammals, mainly to those with longer gestation periods like man.Contribution No 58-66, Department of Biology, City of Hope Medical Center. This work was supported in part by a grant (CA 05138) from the National Cancer Institute, U.S. Public Health Service. The project was undertaken during a five-month visit to Dr. Ohno's laboratory by the senior author whose expenses were covered by the Deutsche Forschungsgemeinschaft.     

Mechanisms of gonadal morphogenesis are not conserved between chick and mouse

To understand mechanisms of sex determination, it is important to know the lineage relationships of cells comprising the gonads. For example, in mice, the Y-linked gene Sry triggers differentiation of Sertoli cells from a cell population originating in the coelomic epithelium overlying the nascent gonad that also gives rise to uncharacterised interstitial cells. In contrast, little is known about origins of somatic cell types in the chick testis, where there is no Sry gene and sex determination depends on a ZZ male/ZW female mechanism. To investigate this, we performed fate mapping experiments in ovo, labelling at indifferent stages the coelomic epithelium by electroporation with a lacZ reporter gene and the underlying nephrogenous (or mesonephric) mesenchyme with chemical dyes. After sex differentiation, LacZ-positive cells were exclusively outside testis cords and were 3betaHSD-negative, indicating that the coelomic epithelium contributes only to non-steroidogenic interstitial cells. However, we detected dye-labelled cells both inside and outside the cords. The former were AMH-positive while some of the latter were 3betaHSD-positive, showing that nephrogenous mesenchyme contributes to both Sertoli cells and steroidogenic cells. This is the first demonstration via lineage analysis that steroidogenic cells originate from nephrogenous mesenchyme, but the revelation that Sertoli cells have different origins between chick and mouse suggests that, during evolution, mechanisms of gonad morphogenesis may diverge alongside those of sex determination.     

Development and differentiation of the reproductive system of Tropidurus catalanensis (Squamata: Tropiduridae)

Development and differentiation of the reproductive system in lizards begin in the embryonic period, although the stage and time of their occurrence vary according to populations and species. In this study, the events of the development and differentiation of the reproductive system of males and females of Tropidurus catalanensis were characterized during the embryonic, neonatal, and juvenile periods. Embryos at Stages 27, 34, 37, 40, and 41, neonates and juveniles, from Corrientes, Argentina, were analyzed. At Stage 27, the genital ridge was not observed but primordial germ cells were recorded in the yolk sac as well as the mesenteric mesenchyme, indicating the beginning of germ cell migration. Gonadal differentiation commenced at Stage 34. In males from Stage 37, the testes possessed seminiferous cords with Sertoli cells and spermatogonia, while in hatchlings seminiferous tubules and interstitial tissue with mature Leydig cells were present. Spermatogenesis was observed in a specimen of 51.9 mm snout-vent length, corresponding to the minimum reproductive size. In females, from Stage 37 until hatching, the ovaries had a cavernous medulla and a cortex with somatic cells and abundant oogonia. The onset of meiosis and folliculogenesis occurred in the juvenile period.     

Diabetes mellitus in the 13-lined ground squirrel (Citellus tridecemlineatus).

Spontaneous diabetes mellitus was diagnosed in six of 126, 13-lined ground squirrels, Citellus tridecemlineatus. Serum glucose values were significantly higher in the diabetic ground squirrels than in the non-diabetic ground squirrels, while serum insulin values of fasted diabetic squirrels were significantly lower than fasted nondiabetic ground squirrels. In addition, the classic diabetic signs of poly-dipsia, polyuria, glycosuria, ketonuria, polyphasia, and weight loss were present. The proportion of islet tissue to total pancreatic area in diabetic ground squirrels was less than 25% of that in the nondiabetic ground squirrels. Both the number and size of the islets of Langerhans in diabetic ground squirrels were less than those in nondiabetic ground squirrels.     

Comparative analysis of morphofunctional features of cortical neurons in ground squirrels and guinea pigs under hypothermia

Activity of sensorimotor cortical neurons in the ground squirrel was studied on slices under cooling the incubation medium from 32–34 to 21–26°С. Hypothermia evoked spontaneous firing activity in “silent” neurons and a slight decrease in firing in high-frequency neurons. Changes in the firing rate arose below 27°С and were accompanied by a fall in the spike amplitude. The intensity of hypothermic and post-hypothermic changes in ground squirrels was lower than in guinea pig sensorimotor cortical neurons recorded under the same conditions. In ground squirrels, most hypothermia-resistant were high-frequency (more than 8 spikes/s) neurons, which accounted for 45% of the recorded, while in guinea pigs high-frequency neurons occurred only in 15% of records. By the diameter of cell bodies, the population of sensorimotor cortical neurons was more homogeneous in ground squirrels than in guinea pigs. It is suggested that specific hypothermic changes in sensorimotor cortical neurons of ground squirrels relate to a lower density of K⁺ channels in their plasma membranes, because in the mammalian nervous system the latter open below 27°С due to thermal limitations of the M-cholinergic reaction which blocks these channels.