The basement membrane, also known as the basal lamina, is a specialized form of extracellular matrix (ECM) common to all multicellular animals. It is a very thin, flexible, and strong sheet-like type of ECM that provides a supporting base for all types of epithelial tissue, separates it from another cell layer such as endothelium, and anchors it to the underlying connective tissue (stroma).
A basement membrane also surrounds some individual cells, including muscle cells, fat cells, and Schwann cells, separating them from surrounding connective tissue. Its composition can vary from tissue to tissue, and even in different regions of the same tissue. The basement membrane may be described as having two layers or laminae, an external basal lamina, facing the epithelium, and an internal basal lamina that faces the connective tissue.
The basement membrane also acts as a platform for complex cell signaling, for polarization, migration, and differentiation. It also regulates the exchange of materials between the epithelium and underlying tissues; binds growth factors from the connective tissue to the epithelium that control the development of epithelium.
thumb|Organization of basement membrane
Types
The glomerular basement membrane of the kidney, is an unusually thick basement membrane. It serves as part of a molecular filter that prevents macromolecules from the blood from entering the urine. These layers are known as the central lamina densa, and on each side, a lamina rara – a lamina rara interna facing the endothelium, and a lamina rara externa facing the podocytes.
Basement membrane zone
In the skin the basement membrane that separates, and connects the epidermis and the underlying dermis is part of a complex and specialized structure called the basement membrane zone (BMZ). The BMZ has four distinct layers –
the basal cell layer, the lamina lucida, the lamina densa, and the sublaminal densa, and has many functions. Tiny microfilaments called tonofilaments cross the basal cell layer, and extend to the epidermal part of the hemidesmosome. Laminins and other adherence proteins are located in the lamina lucida. The lamina densa is mostly composed of a type IV collagen scaffold. Anchoring fibrils and microfilaments extend and blend with the elastic fibrillary system of the dermis.
The components of the BMZ form a complex, functional network that extends from the basal epidermal keratinocytes and their hemidesmosomes, and include anchoring fibrils from the lamina densa, into the extracellular matrix (ECM) of the dermis. In the ECM the anchoring fibrils appear as cross-striated fibrous masses. There are also focal adhesion complexes on the outer cell membrane that bind the cytoskeleton to cell-matrix adhesions.
The basement membrane acts as a mechanical barrier, preventing malignant cells from invading the deeper tissues. Early stages of malignancy that are thus limited to the epithelial layer by the basement membrane are called carcinoma in situ.
The basement membrane is also essential for angiogenesis (development of new blood vessels). Basement membrane proteins have been found to accelerate differentiation of endothelial cells.
Other roles for the basement membrane include blood filtration and muscle homeostasis.
Clinical significance
thumb|Normal [[histology of the breast, with basement membrane annotated near center-right.]]
thumb|[[Prostate gland microanatomy, with basement membrane annotated at bottom.]]
Some diseases result from a poorly functioning basement membrane. The cause can be genetic defects, injuries by the body's own immune system, or other mechanisms. Diseases involving basement membranes at multiple locations include:
- Genetic defects in the collagen fibers of the basement membrane, including Alport syndrome and Knobloch syndrome
- Autoimmune diseases targeting basement membranes. Non-collagenous domain basement membrane collagen type IV is autoantigen (target antigen) of autoantibodies in the autoimmune disease Goodpasture's syndrome.
- A group of diseases stemming from improper function of the basement membrane zone are united under the name epidermolysis bullosa.
In histopathology, thickened basement membranes are found in several inflammatory diseases, such as lichen sclerosus, systemic lupus erythematosus or dermatomyositis in the skin, or collagenous colitis in the colon.
Evolutionary origin
Basement membranes are characteristic of eumetazoans, including diploblastic animals, and have also been identified in homoscleromorph sponges. The homoscleromorph were found to be sister to diploblasts in some studies, making the membrane originate once in the history of life. But more recent studies have disregarded diploblast-homoscleromorph group, so other sponges may have lost it (most probable) or the origin in the two groups may be separate.