Bone Chemistry Flashcards
What cells are found in Haversian systems?
osteocytes
What are the main components of bone?
The organic matrix is compsed primarily of the protein collagen which provides flexibility.10% of adult bone mass is collagenThe mineral component is composed of hydroxyapatite, which is an insoluble salt of calcium and phosphorus. About 65% of adult bone mass is hydroxyapatite.* Bone also contains small amounts of magnesium, sodium, and bicarbonate.* Water comprises approximately 25% of adult bone mass.
Describe osteoclasts
large cells with many nuclei that derive from monocytes and are formed from fusion of precursors. After resorbing bone, osteoclasts undergo apoptosis
Describe osteoblasts
Cuboidal and columnar shaped with a central nucleus located on the bone surface.They come from bone marrow precursor cells. These precursors are capable of turning into either osteoblasts or fat cells, and various factors determine which kind of cells will be made. One of the factors is called Cbfa 1, which will cause the cell to differentiate into an osteoblast.
How do osteoblasts communicate?
Gap junctions with neighboring osteoblasts allow cells to communicate with each other
What receptors do osteoblasts have?
They have receptors forhormonessuch as vitamin D, estrogen, and parathyroid hormone.
What is PHEX?
a protein secreted by osteoblasts thathelps to regulate the amount of phosphate excreted by the kidney.
What happens to osteoblasts when they finish making bone?
When the team of osteoblasts has finished making new bone, some become surrounded with matrix and differentiate into osteocytes. Others will remain on the surface of the new bone and differentiate into lining cells. The rest undergo apoptosis (cell suicide) and disintegrate
What are osteocytes?
These live inside the bone and have long branches which allow them to contact each other as well as the lining cells on the bone surface.* . . . are in a perfect position to sense any mechanical strain on the bone.* . . . can secrete growth factors which activate the lining cells or stimulate the osteoblasts.* Their exact role is still under investigation, but probably the osteocytes direct bone remodeling to accomodate mechanical strain and repair fatigue damage.
What are lining cells?
former osteoblasts which have become flat and pancake-shaped.* . . . line the entire surface of the bone.
What are the roles of lining cells?
These are responsible for immediate release of calcium from the bone if the blood calcium is too low.-protect the bone from chemicals in the blood which dissolve crystals (such as pyrophosphate).-have receptors for hormones and factors that initiate bone remodeling.
What areBone morphogenetic proteins(BMPs)?
BMPs are produced in the bone or bone marrow. They bind to BMP receptors that are on mesenchymal stem cells within the bone marrow. This causes the cells to produce Cbfa1, a transcriptionfactor that causescells to differentiate into mature osteoblasts. Without Cbfa 1, the cells would turn into fat cells instead!
What doInsulin-like growth factors(IGFs) do?
These growth factors are produced by osteoblastic cells in response to several bone active hormones, such as PTHand estrogens, or BMPs. IGFs accumulate in the bone matrix and are released during the process of bone remodeling by osteoclasts. IGFs stimulate osteoblastic cell replication – in other words, they cause the osteoblasts to divide, forming new cells. They may also induce differentiation.
What doInterleukin-1 (IL-1), interleukin-6 (IL-6), and tumor necrosis factor (TNF) in terms of bone?
These factors are produced by osteoblastic cells in response to systemic hormones or other cytokines.IL-6 can cause:* Bone marrow stem cells to differentiate into pre-osteoclasts* Changes in proliferation and differentiation of osteoblasts* Inhibition of apoptosis of osteoblasts
What is the role ofRANKL (RANK-ligand)?
This is a cytokine that stays on the surface of osteoblast-related cells. The cells make RANKL in response to systemic hormones (such as 1,25dihydroxyvitamin D3) and cytokines (such as IL-6). Cell contact between RANKL-expressing osteoblastic cells and RANK-expressing osteoclast precursors induces osteoclast development.