cementum attachment protein Activators
Cementum Attachment Protein (CAP) Activators comprise a unique class of chemical compounds that play a pivotal role in the regulation of cementum attachment, which is fundamental to dental tissue integrity and periodontal regeneration. These activators function by enhancing the biological pathways involved in the differentiation of cementoblasts and the mineralization processes that are essential for the formation and repair of cementum, the calcified tissue that covers the roots of teeth and anchors them to the alveolar bone through the periodontal ligament. One of the primary mechanisms by which CAP activators exert their influence is through the upregulation of signaling pathways that are directly involved in the osteogenic and odontogenic differentiation processes. Chemicals such as bone morphogenetic proteins (BMPs) analogs stimulate pathways that lead to the recruitment and differentiation of progenitor cells into cementoblasts, thereby enhancing the capability of these cells to produce cementum. Similarly, compounds that modulate the Wnt signaling pathway can indirectly promote the activity of CAP by influencing the cellular milieu and extracellular matrix components that are conducive to cementum attachment and growth.
Furthermore, CAP Activators also include molecules that influence the expression of specific integrins and collagen types which are critical for the attachment of cementum to the surrounding structures. For instance, certain phosphatases can lead to an increased activity of alkaline phosphatase, a marker for cementoblast differentiation, thus fostering an environment supportive of cementum regeneration. Additionally, molecules that elevate the levels of cyclic adenosine monophosphate (cAMP) could enhance the responsiveness of cementoblasts to growth factors, further promoting the deposition and attachment of cementum. The precise modulation of extracellular matrix remodeling enzymes, such as matrix metalloproteinases (MMPs) and their tissue (TIMPs), by specific activators may also play a significant role in the maintenance and repair of cementum, ensuring the proper balance between tissue breakdown and formation. Through these various biochemical pathways, CAP activators facilitate the functional enhancement of cementum attachment, underscoring their importance in the maintenance of dental and periodontal health.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Forskolin | 66575-29-9 | sc-3562 sc-3562A sc-3562B sc-3562C sc-3562D | 5 mg 50 mg 1 g 2 g 5 g | $78.00 $153.00 $740.00 $1413.00 $2091.00 | 73 | |
Forskolin activates adenylyl cyclase, increasing intracellular cAMP levels. Elevated cAMP enhances PKA activity, which can phosphorylate proteins involved in cementum attachment protein pathways. | ||||||
1α,25-Dihydroxyvitamin D3 | 32222-06-3 | sc-202877B sc-202877A sc-202877C sc-202877D sc-202877 | 50 µg 1 mg 5 mg 10 mg 100 µg | $220.00 $645.00 $1000.00 $1500.00 $440.00 | 32 | |
This active form of vitamin D3 modulates calcium and phosphate homeostasis, which are essential for dental tissue mineralization, indirectly supporting cementum attachment protein function. | ||||||
Retinoic Acid, all trans | 302-79-4 | sc-200898 sc-200898A sc-200898B sc-200898C | 500 mg 5 g 10 g 100 g | $66.00 $325.00 $587.00 $1018.00 | 28 | |
Retinoic acid, a metabolite of vitamin A, regulates gene expression and epithelial growth. It indirectly supports cementum attachment protein by influencing cellular differentiation in periodontal tissues. | ||||||
L-Ascorbic acid, free acid | 50-81-7 | sc-202686 | 100 g | $46.00 | 5 | |
Ascorbic acid is crucial for collagen synthesis and maturation, which are vital for periodontal tissue health and indirectly enhance the activity of cementum attachment protein in promoting cementum attachment. | ||||||
Magnesium chloride | 7786-30-3 | sc-255260C sc-255260B sc-255260 sc-255260A | 10 g 25 g 100 g 500 g | $28.00 $35.00 $48.00 $125.00 | 2 | |
Magnesium is a cofactor for kinases that can phosphorylate proteins within the signaling pathways involving cementum attachment protein, thus indirectly enhancing its activity. | ||||||
Strontium Ranelate | 135459-87-9 | sc-208403 | 10 mg | $320.00 | ||
Strontium ranelate is involved in bone remodeling. It can indirectly enhance the activity of cementum attachment protein by affecting extracellular matrix deposition in cementum. | ||||||
β-Glycerophosphate disodium salt | 819-83-0 | sc-220452 sc-220452A sc-220452B sc-220452C sc-220452D sc-220452E | 25 g 100 g 500 g 1 kg 3 kg 6 kg | $63.00 $119.00 $442.00 $738.00 $2091.00 $3652.00 | 43 | |
Beta-glycerophosphate serves as a phosphate donor in mineralization processes. It indirectly enhances the activity of cementum attachment protein by promoting the mineralization where it is involved. | ||||||
Zinc | 7440-66-6 | sc-213177 | 100 g | $48.00 | ||
Zinc is essential for numerous enzymatic activities and can influence the phosphorylation of proteins related to cementum attachment protein signaling pathways. | ||||||
Sodium Fluoride | 7681-49-4 | sc-24988A sc-24988 sc-24988B | 5 g 100 g 500 g | $40.00 $46.00 $100.00 | 26 | |
Sodium fluoride promotes mineralization and enhances the activity of enzymes that could indirectly activate signaling pathways involving cementum attachment protein. | ||||||
Calcium chloride anhydrous | 10043-52-4 | sc-207392 sc-207392A | 100 g 500 g | $66.00 $262.00 | 1 | |
Calcium is a critical player in mineralization and can activate signaling pathways that indirectly enhance the functions of cementum attachment protein in cementum formation. | ||||||