Courses
Courses for Kids
Free study material
Offline Centres
More
Store Icon
Store

Osteoblasts

share icon
share icon

Osteoblast Meaning

MVSAT 2024

The osteoblast or osteocalcin osteoblast is a large cell that is responsible for the mineralization and synthesis of bone during both later bone remodelling and initial bone formation. Osteoblasts form a densely packed layer on the bone's surface, from which cellular processes spread throughout the growing bone. And, they arise from the osteogenic cells’ differentiation in the periosteum, the tissue, which covers the bone’s outer surface, and also in the endosteum of the marrow cavity.

This cell differentiation needs a regular supply of blood, without which the cartilage-forming chondroblasts, rather than the osteoblasts that are formed.


Structure of Bone

The skeleton of bone is a large organ, which is formed and degraded throughout life in the air-breathing vertebrates. Often, the skeleton is known as the skeletal system, is important both as the supporting structure and for the maintenance of phosphate, calcium, and acid-base status in the overall organism. The functional part of the bone and bone matrix is entirely extracellular. The bone matrix contains minerals and protein. The protein will form the organic matrix and is synthesized, and after that, the mineral is added.

The majority of the organic matrix is collagen that provides tensile strength. The matrix is mineralized by hydroxyapatite deposition (hydroxylapatite is the alternative name). This particular mineral is very hard and provides compressive strength. Therefore, the mineral and collagen together are a composite material having excellent compressive strength and tensile that can bend under strain and recover its shape without damage. This is known as elastic deformation. Forces, which exceed the capacity of bone to behave elastically can cause failure, typically, fractures of the bone.

Estrogen and osteoblasts stimulate osteoblastic bone formation in mice, unlike humans. Whereas, the chondroblasts and osteoblasts (CB and OB) differ in lineages.


Bone Remodeling

Bone is a complex tissue that is continually reshaped by osteoblasts who generate and secrete matrix proteins, osteoclasts who break down the tissues, and osteoblasts who transport the mineral through the matrix.


Osteoblasts

The major cellular component of bone is defined as osteoblasts. These arise from mesenchymal stem cells (MSC). MSC gives rise to adipocytes, myocytes, and osteoblasts, among other cell types. The number of osteoblasts in the Marrow Adipose Tissue is thought to be inversely proportional to the number of marrow adipocytes (MAT). Osteoblasts can be found in huge counts in the periosteum, the thin connective tissue layer available on the endosteum and outside the surface of bones.


Osteoclasts

Multinucleated cells called osteoclasts (or osteoblast osteoclast) arise from hematopoietic progenitors in the bone marrow, which often give rise to monocytes in the blood. Osteoclasts break down bone tissue, along with osteoblast osteoclast osteocytes, osteoblast osteocytes form the bone’s structural components. In the hollow within bones are several other bone marrow cell types.

Components, which are important for osteoblast bone formation are mesenchymal stem cells (or the osteoblast precursor) and the blood vessels that supply nutrients and oxygen for bone formation. Bone is given as highly vascular tissue, and the blood vessel cells’ active formation, also from the mesenchymal stem cells, is important to support the metabolic activity of the bone.


Osteogenesis

The bone may be formed by one of two processes: intramembranous ossification or endochondral ossification. Intramembranous ossification is defined as the direct ossification of mesenchyme as happens at the time of membrane bone formation of the skull and others. Endochondral ossification is defined as the process of forming bone from the cartilage, and this is a usual method. This bone development form is said to be the more complex form: it follows the formation of cartilage’s first skeleton made by chondrocytes, which is removed and replaced by bone then made by the osteoblasts.


Bone Morphogenetic Proteins

Key growth factors in the endochondral skeletal differentiation are the bone morphogenetic proteins (BMPs), which determine to a major extent where the chondrocyte differentiation takes place and where spaces are left between the bones. The cartilage replacement system by bone contains a complex regulatory system. Also, BMP2 regulates early skeletal patterning. The transforming growth factor-beta (TGF-β) is given as a part of a superfamily of proteins, including BMPs that possess the common signalling elements in the pathway of TGF beta signalling. TGF-β is specifically essential in the cartilage differentiation that generally precedes bone formation for endochondral ossification.


Steroid and Protein Hormones

In the transition of cartilage to bone and bone maintenance, many other regulatory systems are involved. Parathyroid hormone (PTH) is specifically an important bone-targeted hormonal regulator. It is a protein made by the parathyroid gland under the serum calcium activity control. Also, PTH has essential systemic functions, including keeping serum calcium concentrations approximately constant regardless of the calcium intake.

Dietary calcium increasing results in minor increases in blood calcium. However, except in the case of low dietary calcium, this is not a significant mechanism supporting osteoblast bone (osteoblast and osteoclast) formation; additionally, abnormally high dietary calcium increases the risk of serious health consequences not directly related to bone mass, such as stroke and heart attack. The intermittent PTH stimulation increases the osteoblast activity, although PTH can be bifunctional and mediates the degradation of the bone matrix at higher concentrations.

Want to read offline? download full PDF here
Download full PDF
Is this page helpful?
like-imagedislike-image

FAQs on Osteoblasts

1. What is Cartilage?

Answer: Cartilage is the primitive skeleton and a solid avascular (without blood vessels) tissue, where the individual cartilage-matrix secreting chondrocytes, or cells, takes place. Chondrocytes do not contain intercellular connections, and they are not coordinated in units. Cartilage is composed of a collagen type II network, which is held in tension by hydrophilic proteoglycans, water-absorbing proteins. This is given as the adult skeleton in cartilaginous fishes like sharks. In more advanced classes of animals, it develops as the initial skeleton.

2. What is Bone Mineralization?

Answer: The mineralization mechanisms are not fully understood. When low-molecular-weight compounds like calcein or tetracycline are provided for a short period of time, they bind strongly to bone minerals. Then, in the new bone, they accumulate in narrow bands. These specific bands run across the contiguous bone-forming osteoblast (osteoblast and osteoclast) group. They take place at a narrow (or sub-micrometer) mineralization front. 

3. List one Osteoblasts Isolation?

Answer: The first isolation technique by the microdissection method was originally defined by Fell et al. with the help of chick limb bones that were separated into the periosteum, including remaining parts. She has obtained cells that possessed osteogenic characteristics from cultured tissue with the help of chick limb bones that were separated into periosteum and its remaining parts. She also obtained the cells that possessed osteogenic characteristics from cultured tissue.

4. What is Collagen?

Answer: Mostly, all of the organic (or non-mineral) components of bone is the type of dense collagen I that forms densely crosslinked ropes, which give bone its tensile strength. By mechanisms are still unclear, the osteoblasts secrete oriented collagen layers, with the layers parallel to the bone’s long axis alternating with layers at right angles to the bone’s long axis every few micrometers. Some defects in collagen type I cause the commonest inherited disorder of bone, known as osteogenesis imperfecta.


Competitive Exams after 12th Science