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This chapter presents a primer on mineral ion homeostasis and the endocrinology of Ca2+ and phosphate metabolism, then some relevant pathophysiology, and finally pharmacotherapeutic options in treating disorders of mineral ion homeostasis.
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Abbreviations
BMD: bone mineral density
CaSR: calcium-sensing receptor
CGRP: calcitonin gene–related peptide
CKD-MBD: chronic kidney disease–mineral bone disease
CTR: calcitonin receptor
CYP: cytochrome P450
DHT: dihydrotachysterol
ERK: extracellular signal–regulated kinase
FGF: fibroblast growth factor
FGF23: fibroblast growth factor 23
FGFR: FGF receptor
FGFR/KL: FGF receptor/Klotho
FRS2α: FGFR substrate 2α
HRT: hormone replacement therapy
HVDDR: hereditary 1,25-dihydroxyvitamin D resistance
Ig: immunoglobulin
IL-1: interleukin 1
IP3: inositol triphosphate
KL: klotho
MTC: medullary thyroid carcinoma
NF-κB: nuclear factor kappa B
25-OHD3: 25-OH-cholecalciferol
OPG: osteoprotegerin
NPT2: Sodium-dependent phosphate transport protein 2
PDDR: pseudovitamin D–deficiency rickets
Pi: inorganic phosphate
PKC: protein kinase C
PLC: phospholipase C
PTH: parathyroid hormone
PTHR: PTH receptor
PTHrP: PTH-related protein
RANK: receptor for activating NF-κB
RANKL: RANK ligand
RDA: recommended daily allowance
REMS: Risk Evaluation and Mitigation Strategy
SERM: selective estrogen receptor modulator
SGK1: serum and glucocorticoid–regulated kinase 1
TK: tyrosine kinase
TRPV6: Transient receptor potential cation channel V6
VDDR-1: vitamin D–dependent rickets type I
VDR: vitamin D receptor
XLH: X-linked hypophosphatemia
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PHYSIOLOGY OF MINERAL ION HOMEOSTASIS
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Elemental calcium is essential for many biological functions, ranging from muscle contraction and intracellular signaling (see Chapter 3) to blood coagulation and supporting the formation and continuous remodeling of the skeleton.
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Extracellular Ca2+ is in the millimolar range, whereas intracellular free Ca2+ is maintained at submicromolar levels. Different mechanisms evolved that regulate Ca2+ over this 10,000-fold concentration span. Changes in cytosolic Ca2+ (whether released from intracellular stores or entering via membrane Ca2+ channels) can modulate effector targets, often by interacting with the ubiquitous Ca2+-binding protein calmodulin. The rapid association-dissociation kinetics of Ca2+ permit effective regulation of cytosolic Ca2+ over the range of 100 nM to 1 μM.
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The body content of calcium in healthy adult men and women, respectively, is about 1300 and 1000 g, of which more than 99% is in bone and teeth. Ca2+ in extracellular fluids is stringently regulated within narrow limits. In adult humans, the normal serum Ca2+ concentration ranges from 8.5 to 10.4 mg/dL (4.25–5.2 mEq/L, 2.1–2.6 mM) and includes three distinct chemical forms: ionized (50%), protein bound (40%), and complexed (10%). Thus, whereas total plasma Ca2+ concentration is about 2.5 mM, the concentration of ionized Ca2+ in plasma is about 1.2 mM. The various pools of Ca2+ are illustrated schematically in Figure 48–1.
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