Biological discrimination between calcium and strontium in kidneys and bone of young and adult rats

Effects of aging on the biological discrimination between calcium (Ca) and strontium (Sr) by the kidneys and bone were studied in male and female rats of 5 to 50 wk of age by examining Sr/Ca ratios in the plasma, urine, and bone. The Ca-Sr discrimination at the reabsorption process in the kidneys was not affected by aging in male or female rats. On the other hand, discrimination between the two elements was shown to be age-related at the absorption process in the digestive tract, and became more strict with age. The reverse situation was observed in the discrimination of Ca and Sr in the femur; younger rats discriminated the two elements more strictly than older animals.     

Age-related changes in strontium to calcium ratios in rat tissues

The Sr/Ca ratios in plasma, urine, bone, and soft tissues for various ages after weaning in male and female rats were determined to examine the effects of aging on the discrimination between strontium (Sr) and calcium (Ca) under physiological conditions. Age-related changes in the Sr/Ca ratios were similar in all tissues; the Sr/Ca ratios decreased rapidly until about 25-wk-old and then slowly, from that period on, reaching much lower values than in the diet. When the logarithm of the Sr/Ca ratio in each tissue was plotted against the logarithm of age, a linear relationship was observed with statistically significant (p less than 0.05) regression lines. The higher levels of Sr/Ca ratios in all tissues of the younger rats could be explained by the high efficiency of Sr absorption by the small intestine early in life. Parameters for the equations between age and Sr/Ca ratio differed with tissues, suggesting the existence of specific discrimination mechanisms in each tissue.     

Bone mechanical properties after exercise training in young and old rats

The effects of a 10-wk training regimen on the mechanical properties of the femur and humerus were evaluated in 2.5- and 25-mo-old Fischer 344 female rats. The rats trained on a rodent treadmill 5 days/wk for 10 wk. Duration, grade, and speed increased until the rats maintained 1 h/day at 15% grade and either 15 m/min (old rats) or 36 m/min (young rats). Excised bones were mechanically tested with a 3-point flexure test for mechanical properties of force, stress, and strain. Fat-free dry weight (FFW) and moment of inertia were also obtained. With aging, similar increases were observed in both the femur and humerus for FFW, moment of inertia, and force. Ultimate stress was reduced in the senescent femur while strain was elevated; a similar but nonsignificant trend was observed in the humerus. Irrespective of age, training increased FFW in the femur and, to a lesser degree, in the humerus. Breaking force was elevated for both bones after training. In young and old bones, the training-induced differences in bone mass and force were similar, despite differences in training intensity. In the old trained rats, femur ultimate stress was greater than that in control rat femurs and similar to that in young rat femurs. The results of the present study indicate that training effects were not limited by age.     

Development of insulin resistance and hyperphagia in Zucker fatty rats

The onset of hyperphagia in the Zucker fatty (fa/fa) rat occurs on a single day in postnatal development and could be driven by an increase in insulin sensitivity. To test this hypothesis, we performed insulin tolerance tests at several points in development. In rapidly growing juvenile rats, fatty rats are as insulin sensitive as lean rats at 4 wk of age but become increasingly insulin resistant as they became obese. During the suckling to weaning transition, fatty rats are insulin resistant at 2 wk of age, when they are exclusively suckling; they are also insulin resistant at 3 wk of age, when they are suckling and consuming solid food, but not hyperphagic. By 4 wk of age, when fatty rats are hyperphagic, they are as insulin sensitive as their lean littermates. These data indicate that fatty rats experience two phases of insulin resistance, punctuated by a brief period of insulin sensitivity that follows the onset of hyperphagia. To determine whether the increase in insulin sensitivity could be driving the onset of hyperphagia, insulin tolerance tests were performed from 21 to 27 days of age. Obese and lean rats became increasingly insulin resistant from 21 to 23 days of age and then became as insulin sensitive as lean rats by 25 days of age. These data show that increased insulin resistance precedes the onset of hyperphagia and increased insulin sensitivity follows the onset of hyperphagia. This pattern suggests that developmental perturbations in insulin signaling are likely to be involved in the onset of hyperphagia.     

Renal discrimination between strontium and calcium in rats

Renal functions were damaged at the reabsorptive site by the injection of cadmium-metallothionein (Cd-MT) and its effect on discrimination of chemically similar elements was examined for the two alkaline-earth elements, calcium (Ca) and strontium (Sr). Tubular damage was induced in female Wistar rats, 7 wk old, body wt 145.1 +/- 3.5 g (mean +/- S.D.), by an intraperitoneal injection of Cd-MT (400 micrograms Cd/kg body wt). The Cd-MT injection caused increases in urinary enzymes (lactate dehydrogenase; alkaline phosphatase), glucose, and total protein. Urinary Ca and Sr increased and urinary Sr/Ca ratio decreased rapidly after the Cd-MT injection. Both changes remained at significant levels throughout the experiment. On the other hand, renal Ca and Sr levels increased with time after 18 or 24 h and changed similarly. Although plasma levels of Ca and Sr slightly increased after 30 or 36 h post-injections, the plasma Sr/Ca level remained constant. A close exponential relationship formed between the relative clearances of Ca and Sr. There was no significant difference between the exponent of the following equation (K) for the Cd-MT-injected group and that for the control group. Sr clearance/creatinine clearance = (Ca clearance/creatinine clearance)K where K = 0.408 from experimental data for the two groups. This suggests that the discrimination mechanism between Sr and Ca during the reabsorptive step in the kidney is strictly regulated.     

Gender-related long-term effects in adult rats by perinatal dietary ratio of n-6/n-3 fatty acids

Epidemiological studies in humans have shown that perinatal nutrition affects health later in life. We have previously shown that the ratio of n-6 to n-3 polyunsaturated fatty acids (PUFA) in the maternal diet affects serum leptin levels and growth of the suckling pups. The aim of the present study was to investigate the long-term effects of various ratios of the dietary n-6 and n-3 PUFA during the perinatal period on serum leptin, insulin, and triacylglycerol, as well as body growth in the adult offspring. During late gestation and throughout lactation, rats were fed an isocaloric diet containing 7 wt% fat, either as linseed oil (n-3 diet), soybean oil (n-6/n-3 diet), or sunflower oil (n-6 diet). At 3 wk of age, the n-6/n-3 PUFA ratios in the serum phospholipids of the offspring were 2.5, 8.3, and 17.5, respectively. After weaning, all pups were given a standard chow. At the 28th postnatal wk, mean body weight and fasting insulin levels were significantly increased in the rats fed the n-6/n-3 diet perinatally compared with the other groups. The systolic blood pressure and serum triacylglycerol levels were only increased in adult male rats of the same group. These data suggest that the balance between n-6 and n-3 PUFA during perinatal development affects several metabolic parameters in adulthood, especially in the male animals.     

Protein malnutrition of the lactating female rat: effect on maternal behaviour and spontaneous weaning of young rats

Female rats were kept on a diet with a low content of animal protein (5.5%) beginning from the 2nd day after delivery. Beginning from the 10th day after delivery their body weight was persistently lower than that of control females. Also the body weight of their young was lower than that of control animals throughout the experiment, with significant differences appearing on the 17th day of life. Spontaneous termination of maternal milk intake occurred in malnourished young 10 days later than in the controls. Retention of 85Sr in malnourished females was in keeping with their milk production. Irrespective of the differences in body weight and the quality of solid food, the malnourished young began consuming solid food at the same age and in the same relative amounts as the controls. Thus in malnourished young the period of gradual weaning was prolonged by more than to 3 weeks in contrast to 2 weeks in the controls. This is probably due to the slower extinction of the oral sucking mechanism resulting from changes in the maturation of the CNS. No changes were found in maternal behaviour (nest building and efficiency of retrieving) in malnourished females during the suckling period. However, infanticide appeared in some females during the weaning period.     

Variable effect of ghrelin administration on pancreatic development in young rats. Role of insulin-like growth factor-1.

Ghrelin, an endogenous ligand of the growth hormone secretagogue receptor, has been primarily isolated from the human and rat stomach. Ghrelin has been shown to stimulate appetite and fat deposition in adult rats and humans. The aim of this study was to investigate the effect of ghrelin administration on pancreatic growth in suckling, weaned and peripubertal seven week old rats. Rats were treated with saline or ghrelin (4, 8 or 16 nmol/kg/dose) intraperitoneally twice a day: suckling rats were treated for 7 or 14 days starting from the first postnatal day, three week old weaned rats and seven weeks old rats were treated for 5 days. Treatment with ghrelin did not affect animal weight in suckling or weaned rats, whereas in young seven week old rats, ghrelin caused a significant increase in body weight. Ghrelin decreased food intake in weaned rats; whereas in seven week old rats, food intake was enhanced. In suckling rats, ghrelin decreased the pancreatic weight, pancreatic amylase content, DNA synthesis and DNA content. In contrast, ghrelin increased pancreatic weight, DNA synthesis, DNA content and amylase content in weaned or young seven week old rats. Pancreatic blood flow was not affected by ghrelin in any group of rats tested. Ghrelin increased serum level of growth hormone in all rats. This effect was weak in suckling rats, higher in weaned and the highest in seven week old animals. Ghrelin did not affect serum level of insulin-like growth factor-1 (IGF-1) in suckling rats. In weaned and in seven week old rats, treatment with ghrelin caused increase in serum level of IGF-1. We conclude that ghrelin reduces pancreatic growth in suckling rats; whereas in weaned and young seven week old animals, treatment with ghrelin increases pancreatic growth. This biphasic effect of ghrelin in young animals on pancreatic growth seems to be related to age-dependent changes of the release of anabolic IGF-1.     

Aged bone displays an increased responsiveness to low-intensity resistance exercise.

The ability of bone to respond to increased loading as a function of age was tested by use of three-point bending and histomorphometry. The hindlimbs of male Fischer 344 rats of three age groups (young = 4 mo, adult = 12 mo, and old = 22 mo; n = 10 per age group) were progressively overloaded by training the rats to depress a lever high on the side of a cage while wearing a weighted backpack. This squatlike movement required full extension of the hindlimbs. Exercised (Exer) rats performed 50 repetitions three times per week for 9 wk. Pack weight was gradually increased to 65% of body weight. Controls (n = 10 per age group) performed the same exercise without additional weight. Neither the mechanical properties of the femur nor histomorphometry in the proximal tibia was significantly affected in young or adult rats. However, old Exer rats were found to have significantly smaller medullary areas and a decreased trabecular spacing than their age-matched controls. These results suggest a greater sensitivity to increased loading in aged rats.     

An analysis of the age-related decline in testicular steroidogenesis in the rat

The effect of aging in rats on serum and intratesticular testosterone levels, microsomal steroidogenic enzyme activities and microsomal cytochrome P-450 was studied. Serum testosterone levels were highest in 11-wk-old rats, declined at age 16 wk and further declined between ages 7 and 21 mo. Intratesticular testosterone levels in 21-mo-old rats were significantly lower than those of the other groups. The activity of 17 alpha-hydroxylase and C17-20 lyase, as well as cytochrome P-450, decreased significantly in 21-mo-old rats. The activity of 17 beta-hydroxysteroid oxidoreductase increased from 11 wk to 16 wk of age and then declined by 21 mo of age to the levels of 11-wk-old animals. Similar changes in delta 5-3,3-hydroxysteroid dehydrogenase coupled with delta 5-delta 4 isomerase activities were observed, but were not statistically significant. These results suggest that the decline in testosterone production in old rats is predominantly a result of decreased oxygenase activity. Inasmuch as oxygenases are gonadotropin dependent, our results support the hypothesis that gonadotropin deficiency is the major factor responsible for Leydig cell dysfunction in old rats. Further, the decline in the ratio of 17 alpha-hydroxylase to C17-20 lyase with aging suggests that other factors affect these enzymes as well as the reduction in cytochrome P-450.     

Effect of short-term removal of infant rats from the female on lactation.

Removal of the young for a single period of at least 12 hours at the age of 15 days led to a marked increase in 85Sr retention in the maternal organisms and to a decrease in its transfer to the young in the milk. Study of 85Sr transfer in the milk showed that, if the litter was completely changed on the 16th day after birth, the female immediately accepted foster young. Repeated removal of the young on the 14th day and 15th day of life for a length of time which had no effect in a single removal likewise led to a decrease in 85Sr transfer in the milk and to raise 85Sr retention in the female. The gradual decrease which occurs in lactation during the weaning period is probably caused by diminution of the suckling stimulus on the part of the young, as they lose their physical dependence on the female.     

Tracking dietary transitions in weanling baboons (Papio hamadryas anubis) using strontium/calcium ratios in enamel

Strontium and calcium are incorporated into developing teeth in a manner that reflects changing physiological concentrations in the body. A new model predicts changes in strontium/calcium (Sr/Ca) ratios in response to dietary transitions experienced at birth and during the weaning period. Microsampling of longitudinal thin sections of tooth enamel using laser ablation inductively coupled plasma mass spectrometry provides a basis for the systematic evaluation of variation in Sr/Ca ratios within the tooth crown. Incremental growth markers in enamel are used to determine the age of onset of enamel mineralization at each sampling point. Thin sections of 5 teeth from 2 wild-caught baboons (Papio hamadryas anubis) were systematically analysed using this technique. Intra- and intertooth analyses of Sr/Ca ratios reveal a pattern of dietary development during the period of enamel formation that is consistent with observational data on the timing of weaning behaviour in anubis baboons.     

Troglitazone stimulates pancreatic growth in congenitally CCK-A receptor-deficient OLETF rats

We examined the effect of troglitazone treatment on pancreatic growth in the CCK-A receptor-deficient Otsuka Long-Evans Tokushima fatty (OLETF) rat, an animal model for type 2 diabetes mellitus. A troglitazone-rich diet (0.2%) was given from 12 to 28 wk of age or from 12 or 28 wk of age to 72 wk of age. Fasting serum glucose concentrations in control OLETF rats increased progressively with age, which was almost completely prevented by troglitazone treatment. Insulin levels in serum and pancreatic content in the control rat markedly increased at 28 wk of age but significantly decreased at 72 wk of age compared with those at 12 wk of age, whereas those in troglitazone-treated rats were nearly the same at all ages and were similar to those in control rats at 12 wk of age. Pancreatic wet weight in control rats decreased with age irrespective of whether they were hyperinsulinemic (28 wk old) or hypoinsulinemic (72 wk old). Troglitazone treatment significantly increased pancreatic wet weight and protein, DNA, and enzyme contents compared with those in the control rats. Moreover, troglitazone treatment completely prevented or reversed histological alterations such as fibrosis, fatty replacement, and inflammatory cell infiltration. Our results indicate that troglitazone stimulates pancreatic growth in the congenitally CCK-A receptor-deficient OLETF rat not only by reducing insulin resistance and potentiating insulin action but also by suppressing inflammatory changes in the pancreas.     

Blood dopamine beta-hydroxylase activity and noradrenaline levels in the developing white rat.

Dopamine beta-hydroxylase (DBH) (3,4-dihydroxyphenylethylamine, ascorbate:oxygen oxidoreductase (beta-hydroxylating) (EC 1.14.17.1) activity in serum of blood obtained by decapitation of white rats at 19, 20, and 21 days in utero, immediately after birth, and postnatally to 70 days, was measured. Noradrenaline (NA) and DBH in plasma from undisturbed, cannulated, postweaning rats were also assayed. During the last few days in utero and the first 2 postnatal days serum DBH activity tripled and then remained elevated during the suckling period. Upon weaning, serum DBH activity declined at first precipitously and then more slowly, until the adult level was reached around 70 days of age. This postweaning decrease in DBH activity was also observed with the cannulated animals. In contrast, plasma NA levels remained low and constant throughout the postweaning period. In suckling rats treated with 6-hydroxydopamine from 2 to 12 days of age, serum DBH activity decreased to less than half its initial value by day 8. It is suggested that the observed changes in serum DBH activity in fetal and postnatal rats reflect ontogenetic changes in sympathetic nerve terminals and that they are probably not correlated with release of NA.     

Effect of dietary calcium and phosphorus restriction on calcium and phosphorus balance in young and old rats

Previous studies have shown that the serum levels of the primary regulators of calcium (Ca) and phosphorus (P) metabolism, 1,25-dihydroxyvitamin D and parathyroid hormone, may change with age. Therefore, the effect of age on the ability of the rat to maintain a positive Ca and P balance was determined. Young (1.5 months) and old (18 months) rats were divided into three groups and fed either a low-Ca, high-P diet; a high-Ca, low-P diet; or a high-Ca, high-P diet. After 14 days, the young rats were in positive Ca and P balance regardless of diet. The old rats on the low-Ca, high-P diet were in negative Ca balance and positive P balance. The old rats on the other diets were in positive Ca and P balance. The negative Ca balance of the old rats was due to decreased intestinal absorption of Ca. Intestinal absorption was assessed by determining the percentage of dietary Ca absorbed in vivo and by measuring the active transport of Ca using the everted gut sac in vitro. Intestinal P absorption showed little change with age, except for a decrease in old rats on the high-Ca, low-P diet. Renal adaptation to dietary Ca and P restriction was similar in both young and old animals. Plasma Ca levels were unchanged with age, but plasma P levels decreased with age regardless of diet. These changes in Ca balance with age may reflect the reported decrease in serum 1,25-dihydroxyvitamin D₃ levels and the slight increase in PTH levels with age. The inability of old rats to maintain a positive Ca balance in the face of Ca deprivation is consistent with a general characteristic of the aging process—the decreased ability of an organism to adapt to changes in the external environment.     

Characterization of serum apolipoprotein patterns in rats during suckling and post-weaning periods

Changes of serum apolipoprotein patterns during the suckling and post-weaning periods were studied in rats. Concentrations of apolipoprotein A-IV and the high-molecular-weight form of apolipoprotein B were markedly high during the early suckling periods and decreased at weaning. Secretion of apolipoprotein A-IV into the mesenteric lymph in 2-week-old rats was as high as that in adult rats into which the high-fat diet was infused constantly. Apolipoprotein A-IV was found both in high-density lipoprotein and lipoprotein-free fractions, and the relative distribution in the latter decreased developmentally. The concentration of apolipoprotein A-I was low for 1 week after birth, after which it increased to the adult level. The apolipoprotein E level during the suckling and post-weaning periods was similar to or above that of adult rats. The newly formed apolipoprotein B in very-low-density lipoproteins secreted by the isolated liver and by the primary culture hepatocytes of suckling rats was predominantly a high-molecular-weight form. Overnight fasting and early weaning caused a remarkable alteration of the serum apolipoprotein profile. It therefore appears that frequent ingestion of dam's milk as well as ontogenic development are relevant to the serum apolipoprotein patterns characteristic for suckling rats.     

Trypanosoma lewisi: Enhanced resistance in naive lactating rats and their suckling pups

Lactating rats and their suckling offspring were shown to have a naturally occurring resistance to Trypansoma lewisi which was greater than that seen in normal adult rats and was not dependent on previous exposure to the parasite. In the case of the pups maximum protection was dependent on suckling being the sole source of nutriment and also on the peak of the parasitemia falling within the nursing period. Supplementary solid food reduced survival rates in concurrent Hemobartonella muris—T. lewisi infections: pups infected at 10 days of age and totally dependent on nursing showed 82.5% survival but only 6.6% survival when solid food was allowed to supplement milk. However, supplementary food did not reduce survival in pups infected with only T. lewisi. When pups were totally dependent upon nursing until the normal time of weaning (21 days of age), infection with H. muris—T. lewisi at the following days of age allowed the indicated mean survival rates: 10 days (82.5%), 20 (32.5%), 30 (14.3%), and 40 (100%). Infection with T. lewisi alone at the following days of age allowed the indicated mean survival rates: 10 days (100%), 15 (76%), 17 (52%), 20 (100%), and 30 (100%). Lactating rat serum agglutinated “adult forms” of T. lewisi, which correlated well with the observed sudden resolution of parasitemia in lactating animals at the time of the antigenic transition from “juvenile” to “adult” type. The “adult” stage parasitemia in suckling pups was selectively reduced when compared to that of nonlactating adult rats. The lactating rat serum factor could be passively transferred with lactating rat serum to animals already weaned.     

Age-related changes in calcium and phosphorus uptake by rat small intestine

The purpose of these experiments was to determine whether there are changes in intestinal Ca and P uptake with age and whether the regulation of Ca and P uptake changes with age. Experiments were performed in male Fischer 344 rats aged 2-3 months (young), 12-14 months (adult) and 22-24 months (old). Ca and P uptake were measured simultaneously by incubating everted intestinal sacs in a buffered salt solution containing radiolabeled 0.25 mM Ca and 1.0 mM P for 15 min. Ca uptake declined by over 50% with age in the duodenum, and P uptake showed a similar decline in both the duodenum and jejunum. The biggest decrease was seen between the young and adult age groups. These decreases in uptake were paralleled by decreases in serum 1,25-dihydroxyvitamin D with age. Administration of 1,25-dihydroxyvitamin D-3 increased Ca uptake by 50-65% in the duodenum and increased P uptake by 85-120% in the duodenum and jejunum of both young and adult rats. Although 1,25-dihydroxyvitamin D-3 increased uptake by about the same percentage in each age group, the maximal uptake was much greater in the young than in the adult. Feeding a low-Ca diet increased duodenal Ca uptake by 68% and increased serum 1,25-dihydroxyvitamin D over 2-fold in young rats. There was no significant increase in either parameter in adult rats fed a low-Ca diet. However, duodenal P uptake was stimulated by a low-Ca diet by 87% in young rats and by 51% in adult rats. These results demonstrate that there is an age-related decline in Ca and P uptake by the intestinal mucosa. In addition, there is decreased capacity of 1,25-dihydroxyvitamin D-3 and a low-Ca diet to stimulate intestinal uptake in the adult.     

Effect of exercise training on passive stiffness in locomotor skeletal muscle: role of extracellular matrix

The purpose ofthis study was to evaluate the effect of endurance exercise training onboth locomotor skeletal muscle collagen characteristics and passivestiffness properties in the young adult and old rat. Young(3-mo-old) and senescent (23-mo-old) male Fischer 344 rats wererandomly assigned to either a control or exercise training group[young control (YC), old control (OC), young trained (YT), oldtrained (OT)]. Exercise training consisted of treadmill runningat ~70% of maximal oxygen consumption (45 min/day, 5 days/wk, for 10 wk). Passive stiffness (stress/strain) of the soleus (Sol) muscle fromall four groups was subsequently measured in vitro at 26°C.Stiffness was significantly greater for Sol muscles in OC rats comparedwith YC rats, but in OT rats exercise training resulted in muscles withstiffness characteristics not different from those in YC rats. Solmuscle collagen concentration and the level of the nonreduciblecollagen cross-link hydroxylysylpyridinoline (HP) significantlyincreased from young adulthood to senescence. Although training had noeffect on Sol muscle collagen concentration in either age group, itresulted in a significant reduction in the level of Sol muscle HP in OTrats. In contrast, exercise had no effect on HP in the YT animals.These findings indicate that 10 wk of endurance exercise significantlyalter the passive viscoelastic properties of Sol muscle in old but notin young adult rats. The coincidental reduction in the principalcollagen cross-link HP also observed in response to training in OTmuscle highlights the potential role of collagen in influencing passivemuscle viscoelastic properties.

     

Changes in the lipoprotein lipase (clearing-factor lipase) activity of white adipose tissue during development of the rat.

The lipoprotein lipase (clearing-factor lipase) activity of the white adipose tissue from rats aged between 1 and 145 days was determined. Five adipose-tissue sites (epididymal, uterine, subcutaneous, perirenal and intramuscular) together with serum concentrations of triacylglycerol, cholesterol and glucose were studied. The pattern of enzyme-activity change was remarkably similar in all the sites studied, although the growth of the tissues proceeded non-uniformly. After a peak of activity early in suckling, lipoprotein lipase activity fell to low values by 20 days of age. At weaning (21 days) the activity increased sharply and within 5 days high values were regained. The serum triacylglycerol and cholesterol concentrations were low at birth and reached peaks of concentration coincidentally with the minima of white-adipose-tissue lipoprotein lipase activities, seen late in suckling. The changes in enzyme activity were related to other metabolic changes in adipose tissue and with the known changes in plasma insulin concentrations occurring during development.