Variations in (Na+ + K+)-ATPase and Mg2+-ATPase activity of the ground squirrel brain during hibernation.

1. The specific activity of brain (Na+ + K+)-ATPase and Mg2+ -ATPase of the ground squirrel (Spermophilus richardsonii) is significantly increased after long-term hibernation. 2. The markedly non-linear thermal dependence of (Na+ + K+)-ATPase is unchanged during hibernation whereas the near linear thermal dependence of Mg2+-ATPase undergoes minor alteration after prolonged hibernation. 3. The sensitivity of (Na+ + K+)-ATPase to inhibition by ouabain is significantly decreased after 100 days of hibernation as is both the rate and amount of [3H]-ouabain binding. 4. These changes may be related to alteration in the phospholipid matrix of the membrane rather than alteration in the protein structure of the enzyme.     

Chromosomes and evolution of the ground squirrel,Spermophilus richardsonii

Summary Chromosomes were analyzed from two geographically isolated populations of Spermophilus richardsonii. The diploid chromosome number was 36 in S. r. richardonii (Montana population) and 34 in S. r. elegans (Wyoming-Colorado population). The richardsonii Karyotype differed from elegans by the presence of two pairs of acrocentric autosomes whereas the elegans Karyotype lacked acrocentric autosomes and had an extra pair of submetacentrics.A chromosomal polymorphism, produced by centric fusion, probably existed in the more primitive richardsonii population. After ancestral stock of the elegans population became geographically isolated, both populations of S. richardsonii evolved independently and developed different karyotypes derived from the original polymorphism. Although the karyotypes have evolved to a stage found in valid species, the populations may not have been separated long enough to attain reproductive isolation.This investigation was supported by a grant from the National Science Foundation (GB-503).     

Seasonal activity patterns of glycolytic enzymes in a hibernator,the Arctic ground squirrel Spermophilus parryi

Summary The maximum activities of the enzymes of glycolysis of five tissues (cerebrum, heart, liver, kidney cortex and skeletal muscle) were examined in a hibernator, the Arctic ground squirrel, in both the summer-active and hibernating (winter) states. In addition, by observing through electrofocussing the appearance of variants of hepatic pyruvate kinase, an attempt was made to determine the time-course of preparation for hibernation. This process requires about 4 weeks, which is about the same as that for the preparation for emergence from hibernation. The separate tissues responded in individually characteristic fashions, although the enzymes from kidney cortex and liver tended to show a general increase and the enzymes from heart and brain showed a general decrease. The enzyme activities in skeletal muscle changed in seemingly disparate ways with some enzymes increasing in hibernation, while others decreased, and yet others remained unchanged. These results are discussed in the light of the hibernating habit of the mammal.     

Mg2+-induced changes of lipid order and conformation of (Na+ + K+)-ATPase

The effect of magnesium on the phospholipid order parameter and not the conformation of purified pig kidney outer medulla (Na+ + K+)-ATPase was investigated by fluorescence techniques. Measurements with a fluorescent probe TMA-DPH and its sensitized fluorescence with tryptophan residues as donors revealed that magnesium increased the order of the membrane phospholipids both in the lipid annulus and in the bulk phase. Changes in the lipid order induced by Mg2+ can be closely referred to the protein arrangement followed by the steady-state anisotropy of FITC-labeled (Na+ + K+)-ATPase.     

Activation of (Na+ + K+)-ATPase

Enzymes catalyze essential chemical reactions needed for living processes. (Na+ +K+)-ATPase (NKA) is one of the key enzymes that control intracellular ion homeostasis and regulate cardiac function. Little is known about activation of NKA and its biological impact. Here we show that native activity of NKA is markedly elevated when protein-protein interaction occurs at the extracellular DVEDSYGQQWTYEQR (D-R) region in the alpha-subunit of the enzyme. The apparent catalytic turnover of NKA is approximately twice as fast as the controls for both ouabain-resistant and ouabain-sensitive enzymes. Activation of NKA not only markedly protects enzyme function against denaturing, but also directly affects cellular activities by regulating intracellular Ca2+ transients and inducing a positive inotropic effect in isolated rat cardiac myocytes. Immunofluorescent labeling indicates that the D-R region of NKA is not a conventional digitalis-binding site. Our findings uncover a novel activation site of NKA that is capable of promoting the catalytic function of the enzyme and establish a new concept that activating of NKA mediates cardiac contraction.     

The serotonin-immunoreactive system of the suprachiasmatic nucleus in the hibernating ground squirrel,Spermophilus richardsonii

Summary In the suprachiasmatic nucleus (NSC) of hibernating and non-hibernating ground squirrels, the distribution of serotonin-immunoreactive (5HT-IR) fibers was studied by the use of the peroxidase-antiperoxidase technique. The cytology of perikarya giving rise to these suprachiasmatic 5HT-IR fibers was investigated in the anterior raphe nuclei. Differences in the immunoreactivity of suprachiasmatic fibers between hibernating and non-hibernating ground squirrels were determined by digital image analysis. The cellular activity was determined densitometrically after RNA-staining in anterior raphe neurons and suprachiasmatic perikarya. Abundant 5HT-IR fibers were observed in the medial and ventromedial portions of the NSC. Frequently, the fibers were found in close contact with perikarya of suprachiasmatic neurons. The central portion of the nucleus and the surrounding hypothalamic areas contained only a few scattered 5HT-IR fibers. Inside the raphe nuclei, 5HT-IR fibers and perikarya formed a dense network. In hibernating ground squirrels, the immunoreactivity to serotonin was approximately 45% higher than in non-hibernating controls. This difference is in accordance with signs of higher neuronal activity (40% higher RNA-content, 20% larger cell nuclei) in 5HT-IR perikarya of the raphe nucleus and the persisting activity of the NSC during hibernation; the activity of other brain regions dropped conspicuously in torpid animals.Supported by the Deutsche Forschungsgemeinschaft (Nu 36/2-1)     

Ultrastructural observations on the gallbladder of Richardson's ground squirrel (Spermophilus richardsonii)

The gallbladder of Richardson's ground squirrel shares many structural similarities with numerous other species, including the mouse, rabbit and man. Dark cells exhibit a condensed cytoplasm but contain all the typical organelles of light cells, although their total complement appears reduced. Edematous cells extruded from the epithelial lining were replaced through mitosis or had their space occupied by adjacent cells. Specializations of the basal plasma membrane and underlying basal lamina form peg-and-socket interdigitations, and desmosomes were observed on the lateral cell boundaries down to the level of the basal lamina. The latter remain intact during active water resorption while the former disappear. Adrenergic nerve fibers were observed intramuscularly and beneath the basal lamina. Random interepithelial migration of leucocytes was also observed. Some of these observations help to elucidate controversial issues whereas others have been previously unreported and may be species-dependent.     

Maternal behaviour in Richardson's ground squirrel (Spermophilus richardsonii richardsonii): retrieval of young by non-lactating females

Retrieval of young by females which had littered in the previous year and by virgins was investigated. More (five of six) non-parous mothers retrieved than virgins (one of seven). Those animals which did not retrieve attacked the young. Animals which retrieved also exhibited other maternal responses (cleaning, nidification, lactation position). The results suggest that previous parity has a long lasting effect on the response of non-lactating females to young.     

Seasonal and temperature-related changes in mitochondrial membranes associated with torpor in the mammalian hibernator Spermophilus richardsonii

Seasonal variations in the thermal response of liver mitochondrial membranes from Richardson's ground squirrels (Spermophilus richardsonii) were determined by measuring succinate-cytochrome $\text{c}$ reductase activity and spin label motion over a temperature range of 2 °C to 35 °C. For seven summer animals from the field the Arrhenius-type plots for enzyme activity and spin label motion were biphasic indicating a transition in structure and function at $\text{22 + 2.3°C}\text{and}\text{23 ± 1.9°C}$, respectively; typical of homeothermic mammals. For 12 winter animals maintained at 19°C, the transition in structure and function was lowered to $\text{12 ± 1.1°C}$ and $\text{13 ± 1.4°C}$, respectively. The transition for 5 of 11 winter animals which were kept at 4°C and maintained normal activity and body temperature was similar to animals maintained at 19°C, while for the other six the transition was further lowered to less than 4°C. The transition for seven winter animals which were in deep hibernation was less than 4°C. The results for liver mitochondria show that lowering of the transition in membrane structure and function occurs as a two-stage process of about 10 deg. C for each stage and that the lowering is a requisite for hibernation rather than a response to the low-body temperatures experienced during hibernation.     

Rb+ occlusion in renal (Na+ + K+)-ATPase characterized with a simple manual assay

This paper describes properties of a simple manual assay for Rb+ occlusion on renal (Na+ + K+)-ATPase. Rb+ occlusion is measured by applying the enzyme plus Rb+ (86Rb) mixture to a Dowex-50 cation exchange column at 0 degree C, and eluting the enzyme with occluded Rb+ using an ice-cold sucrose solution. The enzyme-Rb+ complex is quite stable at 0 degree C. This method is useful for measuring Rb+ occlusion under equilibrium binding conditions and slow rates of dissociation of the enzyme-Rb+ complex. The stoichiometry of Rb+ occluded per phosphorylation site is 2. Rb+ saturation curves are strictly hyperbolic, suggesting that the two Rb+ sites have very different affinities, one in the micromolar range and one in the tens of millimolar range. ATP shifts the Rb+ saturation curves to the right (control K0.5 100-200 microM; plus ATP, K0.5 0.8-1.4 mM, in a 100 mM Tris-HCl medium, pH 7.0) and reduces the maximal level occluded (control approx. 4 nmol/mg; plus ATP approx. 3 nmol/mg protein). Thus, as expected, ATP shifts the E(1)2Rb+-E2(2Rb+)occ equilibrium towards E1. Sodium ions at concentrations of up to 30 mM compete with the rubidium ions, KNa = 1.86 mM in the Tris-HCl medium. Na+ at higher concentrations (30-100 mM) has an added non-competitive antagonistic effect. At room temperature, Rb+ dissociates slowly from the enzyme, kobs = 0.08 s-1, in the presence of either Rb+ (20 mM) or Na, (100 mM). As expected, dissociation is greatly accelerated by ATP, the rate being to fast to be measured by this technique. (Na+ + K+)-ATPase proteolyzed selectively by chymotrypsin in a Na+ medium, occludes Rb+. For control and proteolyzed (Na+ + K+)-ATPase the Rb+ saturation curves are similar and the rates of dissociation of the enzyme-Rb+ complex are identical. The chymotryptic split appears to disrupt antagonistic interactions between cation and ATP binding domains, while the E1-E2 conformational transition of the unphosphorylated protein probably remains.     

Lack of immunological cross reactivity between the transport enzymes (Na+ + K+)-ATPase and (K+ + H+)-ATPase

Goat antisera against (Na⁺ + K⁺)-ATPase and its isolated subunits and against (K⁺ + H⁺)-ATPase have been prepared in order to test for immune cross-reactivity between the two enzymes, whose catalytic subunits show great chemical similarity. None of the (Na⁺ + K⁺)-ATPase antisera cross-reacted with (K⁺ + H⁺)-ATPase or inhibited its enzyme activity. The same was true for the (K⁺ + H⁺)-ATPase antiserum with regard to (Na⁺ + K⁺)-ATPase and its subunits and its enzyme activity. So not withstanding the chemical similarity of their subunits, there is no immunological cross-reactivity between these two plasma membrane ATPases.Number LIII in the series Studies on (Na⁺ + K⁺)-Activated ATPase.     

Spontaneous adenocarcinoma immunoreactive to cyclooxygenase-2 and transforming growth factor-beta1 in the buccal salivary gland of a Richardson's ground squirrel (Spermophilus richardsonii).

The ground squirrel is used as an experimental animal because of its unique biological nature. A 3-year-old female Richardson's ground squirrel developed a mass, 1.5 cm in diameter, in the buccal mucosa. The mass consisted of neoplastic epithelial cells showing acinar, ductular, intraductal papillary, solid, and lobular growth patterns; the cells were immunoreactive to cytokeratin, cyclooxygenase-2 (a marker of malignancy) and TGF-beta1. After resection, the tumor recurred with increased area having a solid or lobular pattern with little differentiation. This tumor was diagnosed as an adenocarcinoma arising from the buccal gland, the first case reported in the ground squirrel. A prominent desmoplastic reaction was present. The interstitial cells reacted to alpha-smooth muscle actin and vimentin, indicating a myofibroblastic nature, presumably induced by epithelial TGF-beta1.     

Crystallization patterns of membrane-bound (Na+ +K+)-ATPase

Extensive formation of two-dimensional crystals of the proteins of the pure membrane-bound (Na+ +K+)-ATPase is induced during prolonged incubation with vanadate and magnesium. Some membrane crystals are formed in medium containing magnesium and phosphate. Computer-averaged images of the two-dimensional crystals show that the unit cell in vanadate-induced crystals contains a protomeric alpha beta-unit of the enzyme protein. In phosphate-induced crystals an (alpha beta) 2-unit occupies one unit cell suggesting the interactions between alpha beta-units can be of importance in the function of the Na+, K+ pump.     

Nonphotic entrainment in a diurnal mammal, the European ground squirrel (Spermophilus citellus).

Entrainment by nonphotic, activity-inducing stimuli has been investigated in detail in nocturnal rodents, but little is known about nonphotic entrainment in diurnal animals. Comparative studies would offer the opportunity to distinguish between two possibilities. (1) If nonphotic phase shifts depend on the phase of the activity cycle, the phase response curve (PRC) should be about 180 degrees out of phase in nocturnal and diurnal mammals. (2) If nonphotic phase shifts depend on the phase of the pacemaker, the two PRCs should be in phase. We used the diurnal European ground squirrel (Spermophilus citellus) in a nonphotic entrainment experiment to distinguish between the two possibilities. Ten European ground squirrels were kept under dim red light (<1 lux) and 20 +/- 1 degrees C. During the entrainment phase of the experiment, the animals were confined every 23.5 h (T) to a running wheel for 3 h. The circadian rhythms of 6 squirrels entrained, 2 continued to free run, and 2 possibly entrained but displayed arrhythmicity during the experiment. In a second experiment, a photic pulse was used in a similar protocol. Five out of 9 squirrels entrained, 1 did not entrain, and 3 yielded ambiguous results. During stable entrainment, the phase-advancing nonphotic pulses coincided with the end of the subjective day, while phase-advancing light pulses coincided with the start of the subjective day: mean psi(nonphotic) = 11.4 h; mean psi(photic) = 0.9 h (psi defined as the difference between the onset of activity and the start of the pulse). The data for nonphotic entrainment correspond well with those from similar experiments with nocturnal Syrian hamsters where psi(nonphotic) varied from 8.09 to 11.34 h. This indicates that the circadian phase response to a nonphotic activity-inducing stimulus depends on the phase of the pacemaker rather than on the phase of the activity cycle.