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Mandibular deformities in parathyroid hormone-related protein (PTHrP) deficient mice: possible involvement of masseter muscle (2000)

Shibata, S. ; Suda, N. ; Yamazaki, K. ; [et al.]

Springer

Anatomy and embryology 202 (2000), S. 85-93

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ISSN: 1432-0568

Keywords: Key words Intramembranous ossification ; Immunohistochemistry ; Muscle fiber type

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Previous studies using parathyroid hormone-related protein (PTHrP) null mutant mice have indicated severe abnormalities in the endochondral ossification, suggesting that PTHrP affects chondrocyte differentiation. In this study, we found in newborn PTHrP-deficient mice some deformities in the mandible that is formed via intramembranous ossification. The mandibular ramus was bent downwards and a prominent bone crest to which the deep layer of masseter muscle was tendinously attached was observed in the mandibular body. Transmission electron microscopic studies showed that active bone formation was progressing along the tendon fibers of the masseter muscle. The examination of 3-D reconstruction models indicated that the mandibular ramus was bent at the site of muscle attachment, which was shifted in the direction of the muscle fibers. Muscle fiber type analysis using myosin ATPase staining showed that the masseter muscle in the newborn PTHrP-deficient mice contained numerous type 2B fibers, demonstrating premature maturation of this muscle. Based on these findings, we speculated that premature maturation of the masseter muscle leads, probably due to increased tensile forces, to accelerated bone crest formation and subsequent bending of the mandibular ramus. These results further suggest that PTHrP is involved in the regulation of muscle development in normal animals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004290000100

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Inner-medullary organic osmolytes and inorganic electrolytes in K depletion (2000)

Beck, F.-X. ; Müller, E. ; Fraek, M.-L. ; [et al.]

Springer

Pflügers Archiv 439 (2000), S. 471-476

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ISSN: 1432-2013

Keywords: K depletion Renal concentrating mechanism Organic osmolytes Intracellular electrolytes Ionic strength

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract. The renal concentrating defect typical for chronic K depletion has been ascribed to malfunction of renomedullary cells caused by inadequate accumulation of organic osmolytes. A reduction in intracellular ionic strength, which is believed to influence decisively the accumulation of organic osmolytes, has been held responsible for insufficient osmolyte accumulation. To test this hypothesis, intra- and extracellular Na, Cl and K concentrations, the major determinants of ionic strength, were measured in the papilla by electron microprobe analysis and organic osmolytes (glycerophosphorylcholine, betaine, sorbitol, myo-inositol, free amino acids) in inner-medullary tissue by HPLC in antidiuretic rats kept on either a control (normal-K) or a K-deplete (low-K) diet and in euhydrated rats with free access to water and control diet. K depletion was associated with a reduced urine concentrating ability. Papillary interstitial ionic strength (sum of Na, Cl and K) in antidiuretic low-K rats was significantly reduced compared with antidiuretic normal-K rats (688±19 vs.971±61 mmol/kg wet wt) but was similar to that in euhydrated normal-K rats (643±35 mmol/kg wet wt). The lower interstitial ionic strength in antidiuretic low-K and euhydrated normal-K rats was associated with a lower total content of organic osmolytes in the inner medulla (365±14 and 381±20, respectively, vs. 465±11 mmol/kg protein in antidiuretic normal-K rats). Intracellular ionic strength (sum of Na, Cl and K) of papillary collecting duct cells, however, was similar in antidiuretic normal-K and euhydrated normal-K rats (171±5 and 179±11 mmol/kg wet wt) but lower in antidiuretic low-K rats (138±9 mmol/kg wet wt). These results do not support the view that, in the steady state of osmotic adaptation of renomedullary cells in situ, intracellular ionic strength is the decisive factor for maintaining high levels of organic osmolytes. During chronic K depletion, reduced osmolyte accumulation by renomedullary cells may be the consequence, rather than the cause, of lower medullary interstitial tonicity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004249900199

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