Roman C. Mühlbauer

Onion and a Mixture of Vegetables, Salads, and Herbs Affect Bone Resorption in the Rat by a Mechanism Independent of Their Base Excess

Prevention of low bone mass is important to reduce the incidence of osteoporotic fractures. In man, the consumption of fruits and vegetables is associated with greater bone mineral density (BMD), an effect that is claimed to be caused by their base excess buffering metabolic acid, thought to dissolve bone. We showed previously that in the rat the consumption of several vegetables, salads, and herbs inhibits bone resorption and that onion increases bone mass. In this study we show that, although the intake of onion is associated with a decrease in urinary noncarbonic acid excretion and a concomitant inhibition of bone resorption of similar magnitude, the two findings are not causally related. Onion retains its bone resorption inhibitory activity in the rat even when added to a vegetarian diet with typical base excess. Onion and a mixture of vegetables, salads, and herbs retain their inhibitory activity even when metabolic acid is buffered with potassium citrate. In addition, neither the pH nor the potassium content of individual ashed vegetables, salads, and herbs correlates with inhibition of bone resorption. The effect of vegetables, salads, and herbs, which inhibit bone resorption in the rat, therefore is not mediated by their base excess but possibly by a pharmacologically active compound(s).

Common herbs, essential oils, and monoterpenes potently modulate bone metabolism.

During our survey of herbs looking for activity on bone metabolism, we found that the dried leaves of sage strongly inhibit bone resorption. Therefore, we investigated several common herbs rich in essential oils (sage, rosemary, and thyme) and essential oils extracted from these herbs and other plants (oils of sage, rosemary, juniper, pine, dwarf pine, turpentine, and eucalyptus) as well as their monoterpene components (thujone, eucalyptol, camphor, borneol, thymol, alpha-pinene, beta-pinene, bornylacetate as well as menthol) and found that they inhibit bone resorption when added to the food of rats. Pine oil, used as a representative essential oil, protects an osteoporosis model, the aged ovariectomized rat, from bone loss. The monoterpenes borneol, thymol, and camphor are directly inhibitory in the osteoclast resorption pit assay. Nonpolar monoterpenes may require metabolism to be active in vitro, for example, cis-verbenol, a metabolite of alpha-pinene occurring in human urine, inhibits osteoclast activity in contrast to the parent compound. Within 30 min borneol inhibits the formation of actin rings, a characteristic of resorbing osteoclasts indicating cell polarization. Both the in vitro and the in vivo effects of borneol are reversible. Our study demonstrates for the first time that essential oils and monoterpenes are efficient inhibitors of bone resorption in the rat.

Ultrastructural Changes in Otoconia of Osteoporotic Rats

The etiology of benign paroxysmal positional vertigo (BPPV) remains obscure in many cases and women are affected more often than men. A recent prospective study, performed in women >50 years of age suffering from recurrent BPPV, showed associated osteopenia or osteoporosis in a large percentage of these patients. These results suggested the possible relationship between recurrent BPPV and a decreased fixation of calcium in bone in women >50 years. To test this hypothesis, an experimental study was performed in adult female rats. Utricular otoconia of female rats in which osteopenia/osteoporosis was induced by bilateral ovariectomy (OVX) were compared to those of sham-operated adult females rats (SHAM), as control group. First Study: The morphology of theutricles of OVX and SHAM rats was analyzed with scanning electron microscopy. In osteopenic/osteoporotic rats, the density of otoconia (i.e. the number of otoconia per unit area) was decreased (p = 0.036)and their size was increased (p = 0.036) compared to the control group. Second Study: To test the role of calcium turnover in such morphological changes, utricular otoconia of 2 other groups of OVX and SHAM rats, previously injected with calcein subcutaneously, were examined by conventional and epifluorescence microscopy. In epifluorescence microscopy, labeling with calcein showed no significant fluorescence in either group. This finding was interpreted as a lack of external calcium turnover into otoconia of adult female rats. The ultrastructural modifications of otoconia in osteopenic/osteoporotic female adult rats as well as the role of estrogenic receptors in the inner ear are discussed. The possible pathophysiological mechanisms which support the relationship between recurrent BPPV in women and the disturbance of the calcium metabolism of osteopenia/osteoporosis are debated.

Sodium EDTA enhances intestinal absorption of two bisphosphonates

SummaryBisphosphonates are poorly absorbed when given orally and their absorption is subject to a large inter-and intraindividual variability. This poor absorbability is thought to result, at least in part, from formation of unabsorbable complexes with calcium. It was therefore investigated whether the calcium chelator EDTA could improve intestinal absorption of two bisphosphonates, 4-amino-1-hydroxybutylidene-1, 1-bisphosphonate (AHBuBP), and dichloromethylenebisphosphonate (Cl2MBP). Absorption was assessed indirectly by measuring the suppression of hypercalcemia induced in thyroparathyroidectomized rats by a retinoid. The absorption of AHBuBP was in the range of 1–3%. EDTA increased absorption about tenfold at a AHBuBP dose of 0.6 mg P/kg and about twofold at lower doses, with the minimal effective dose of EDTA being 10 mg/kg. The absorption of Cl2MBP was also increased by EDTA, although to a smaller extent, the lowest effective dose being 100 mg/kg EDTA. Thus, EDTA can, in certain circumstances, increase the intestinal absorption of bisphosphonates. The mechanism might involve an increase in available bisphosphonate and a change in mucosal permeability. The amount of EDTA required is, however, too high for use clinically.

Effect of monoterpenes on the formation and activation of osteoclasts in vitro

Monoterpenes, present in aromatic plants, are known to inhibit bone resorption in vivo. In this in vitro study, they inhibited the activation of osteoclasts only at high concentrations but inhibited the formation at much lower concentrations. Therefore, monoterpenes may act in vivo directly on osteoclastogenesis.

Onion decreases the ovariectomy-induced osteopenia in young adult rats

It has been suggested that fruit and vegetable consumption are associated with good bone health. Onion, in particular, has been verified in its efficacy in bone resorption activity. In this study, we further investigated the effects of an onion-containing diet on ovariectomy-induced bone loss using methods of serum marker assay, histomorphometric analysis and biomechanical tests. Sixty-four female Wistar rats (14-week-old) with sham operations or ovariectomy were assigned to 6 groups: CON, sham-operated control group; OVX, ovariectomized group; ALN, ovariectomized rats treated with alendronate (1 mg/kg/day, p.o.); and 3% ON, 7% ON and 14% ON, ovariectomized rats fed with diets containing 3%, 7% and 14% (wt/wt) onion powder, respectively. Animals were sacrificed after a six-week treatment course. In the serum marker assay, alendronate and all three onion-enriched diets significantly decreased serum calcium level (p<0.05). Both 14% ON group and the ALN group even showed similarly lower level of serum osteocalcin (p<0.05), suggesting a down-regulation of bone turnover. The histomorphometric analysis showed that ovariectomy markedly decrease bone trabeculae. The ALN and 14% ON rats were 80% and 46% higher, respectively, in BV/TV than the OVX rats (p<0.05), and the rats fed with onion-enriched food showed a lesser ovariectomy-induced bone loss in a dose-dependent manner. Additionally, both ALN and 14% ON groups had significantly more trabecular number, less separated trabeculae, and fewer osteoclasts (p<0.05), but the protective efficacy from the 14% onion-enriched diet was slightly inferior to that of alendronate. Ovariectomy also significantly decreased tissue weight and biomechanical strength in the OVX group (p<0.05). The ALN and 14% ON groups equivalently showed a lesser decrease in tissue weight, though the difference was not significant. On the other hand, both the ALN and 14% ON groups represented similar biomaterial properties of femurs, and both reduced the ovariectomy-induced decrease in bending load and bending energy (p<0.05). The present study further verified that an onion-enriched diet could counteract ovariectomy-induced bone loss and deterioration of biomechanical properties.

The Adaptive System of the Tubular Transport of Phosphate

The present report is an attempt to review the state of our knowledge concerning the adaptation of the tubular transport of Pi in relation with the homeostasis of Pi.

Rutin cannot explain the effect of vegetables on bone metabolism.

Horcajada-Molteni et al. (1) previously reported that rutin (quercetin-30-rutinoside) inhibits ovariectomy-induced osteopenia in growing rats. Furthermore, they claim that rutin partially explains the effect of vegetables on bone metabolism, which was found in an earlier study. (2) This claim, however, is not justified because only a single pharmacologic dose of rutin was used by Horcajada-Molteni et al. (1)

Inflammation-mediated osteopenia (IMO): No change in bone resorption during its development

Bone loss in rats with In f lammat ion-Media ted Osteopenia (IMO) (I, 21 was first attributed to increased bone resorption (21. Later, morphological studies showed, however, that bone resorption was not increased but formation was inhibited and attributed to osteoblast reduction in number and activity (3). Nevertheless, we observed, that the bisphosphonate APD was found to inhibit the development of IMO (4), although the drug is thought not to influence osteoblast function but only to inhibit osteoclast activity (5). Thus we hypothesized, that IMO might possibly be also dependent on activation of osteoclasts. It has been shown, that 3Htetracycline released from bone of prelabelled animals is poorly incorporated into newly formed bone, thus representing a better tool to study bone resorption than 6SCa, which is strongly reincorporated (6). 3H-tetracycline-release from bone of prelabeled rats can also be detected in urine and has been used as a method for continual monitoring of bone resorption in the mouse (71 and the rat (8). Therefore, we studied in this paper osteoclast activity in rats with IMO applying the technique of urinary 3H-excretion in 3H-tetracycline prelabelled rats (8).

Is there a bone-kidney link in the homeostasis of inorganic phosphate (Pi)?

The kidney responds to variations in the supply of inorganic phosphate (Pi) by changing its tubular capacity to transport Pi (1,2,3). This change represents very likely a homeostatic response which tends to adjust the rate of Pi excretion according to the needs of the organism. It would be logical to envisage that, according to this concept, variations in the needs of Pi should also lead to a homeostatic adjustment in the rate of tubular Pi transport. In the growing animals a large portion of the ingested Pi is taken up by the skeleton for mineralization. A decrease in the capacity of the bone to retain calcium and phosphate therefore should elicit a change in the renal handling of Pi similar to that promoted by an increment in the dietary Pi supply.