Attainment of peak bone mass and bone turnover rate in relation to estrous cycle, pregnancy and lactation in colony-bred Sprague-Dawley rats: suitability for studies on pathophysiology of bone and therapeutic measures for its management

Alteration in biochemical markers of bone turnover and bone mineral density (BMD) of whole body and isolated femur and tibia in relation to age, estrous cycle, pregnancy and lactation and suitability of use of rat as model for studies on pathophysiology of bone and therapeutic measures for its management were investigated. Immature rats (1, 1.5 and 2 month of age; weighing, respectively, 39.3 ± 1.0, 67.8 ± 2.4 and 87.2 ± 5.2 g) exhibited high rate of bone turnover, as evidenced by high serum osteocalcin and alkaline phosphatase and urine calcium/creatinine ratio. However, their BMD (whole body or of isolated long bones) was below measurable levels. Marked increase in body weight at 3 months (185.5 ± 5.2 g) was associated with low serum osteocalcin and alkaline phosphatase and urine calcium/creatinine ratio. Biochemical markers and BMD attained at puberty at 3 months were maintained until 36 month of age. No significant change in serum calcium was observed with increasing age or on any of the biomarkers during estrous cycle, and BMD of femur and tibia isolated during proestrus and diestrus stages was almost similar. Onset of pregnancy was associated with significant increase in serum total alkaline phosphatase and osteocalcin levels, but serum calcium, urine calcium/creatinine ratio or BMD of whole body or isolated long bones were not significantly different from that at proestrus stage. No marked change, except increase in body weight (P < 0.05), was also evident in these parameters between days 5 and 19 of pregnancy, irrespective of number of implantations in the uterus. A significant decrease in BMD of isolated femur (neck and mid-shaft regions) was observed on days 5 and 21 of lactation as compared to that during pregnancy or diestrus/proestrus stages of estrous cycle; the decrease being almost similar in females lactating two or six young ones. BMD of isolated tibia (global and region proximal to tibio-fibular separation point), though generally lower than that during cycle and pregnancy, was statistically non-significant. However, clear evidence of occurrence of osteoporosis during lactation, with decrease in BMD of >2.5 × S.D. in isolated femur (global, neck and mid-shaft) as well as tibia (global) was observed only when BMD data was analysed on T-/Z-score basis. Serum biochemical markers of bone turnover, too, were significantly increased in comparison to cyclic rats. Findings demonstrate marked increase in body weight and bone turnover during first 3 months of age, direct correlation between peak bone mass and onset of puberty at 3 months of age and increase in bone resorption rate during lactation. Finding of the study while might suggests possible use of rat as useful model for studies on bone turnover rate during lactation and post-weaning periods and extrapolation of the result to the human situation, but not in relation to ageing.     

The mouse bioassay for the detection of estrogenic activity in rodent diets: II. Comparative estrogenic activity of purified, certified and standard open and closed formula rodent diets

A major source of exogenous estrogenic substances, which may affect laboratory animals, comes from the diet. To test the possibility that commercially available rodent diets may significantly influence uterine weights and uterine:body weight (U:BW) ratios, estrogen bioassays were performed using female CD-1 mice weaned at 15 days of age and assigned randomly to a variety of commercial test diets or to a control diet (Purina #5002) containing 0 or 6 ppb added diethylstilbestrol (DES) for comparison. Mice were housed five per cage and given deionized water and feed ad libitum. Uterine:BW ratios from 15 mice per diet were determined after 3, 5 and 7 days of feeding. Mice fed The American Institute of Nutrition purified diet (AIN-76A) or the Purina #5015 natural ingredient breeder diet had significantly (P less than 0.05) increased U:BW ratios at 3, 5 and 7 days post weaning when compared to the control diet without added DES. This increase in U:BW ratios was similar to the U:BW ratios observed in a natural ingredient maintenance diet (Purina #5002), containing 6 ppb of DES. These results show that significant differences exist in the level of substances which can cause increase in uterine weight in some commercial diets. The diet may be important when performing or comparing certain types of studies, especially those relating to estrogenic substances. A standardized diet with minimal estrogenic activity may be desirable for such studies. It is unclear from the present studies what substances might be responsible for the uterine growth promoting activity in the diets examined.     

Gene 67, a new,essential bacteriophage T4 head gene codes for a prehead core component,PIP: II. The construction in vitro of unconditionally lethal mutants and their maintenance

We have obtained frameshift mutations of the bacteriophage T4 gene 67 by manipulating restriction cleavage sites within the gene cloned onto small plasmids. When these mutated genes were recombined back into the T4 genome the resulting phages were inviable. They could only be propagated by complementation in strains carrying a cloned, non-mutated copy of the gene on a plasmid. These experiments demonstrate that gene 67 is essential for T4 growth. Electron microscopy of bacteria infected with 67^? phages revealed that phage head morphogenesis was blocked at an early stage and particles resembling abnormal preheads were found in large numbers. The gene 67 product, PIP, is therefore essential for correct prehead assembly.