ADAM7

Disintegrin and metalloproteinase domain-containing protein 7 is a is_associated_with::protein that in humans is encoded by the ADAM7 is_associated_with::gene. ADAM7 is an 85-kDa is_associated_with::enzyme that is a member of the transmembrane ADAM (A is_associated_with::Disintegrin and is_associated_with::Metalloprotease) is_associated_with::protein family. Members of this family are membrane-anchored proteins structurally related to snake venom is_associated_with::disintegrins, and have been implicated in a variety of biological processes involving cell-cell and cell-matrix interactions, including fertilization, muscle development, and neurogenesis. ADAM7 is important for the maturation of is_associated_with::sperm cells in is_associated_with::mammals. ADAM7 is also denoted as: ADAM_7, ADAM-7, EAPI, GP-83, and GP83.

Function
The functions of ADAM7 directly relate to sperm maturation and fertilization. Sperm are immobile until traversing the is_associated_with::epididymis, in which the sperm interact with many proteins secreted by epihtelial cells of the epididymis. Lacking protease activity, ADAM7 may play roles in protein-protein interactions and cell adhesion processes including sperm-egg fusion. ADAM7 is secreted by epididymis cells and transferred to the maturing sperm's surface. As determined through mouse gene knock-out studies, the amount of ADAM7 secreted is directly linked to is_associated_with::ADAM2 and is_associated_with::ADAM3 protein levels. Complex formation between ADAM7, is_associated_with::Calnexin, Hspa5, and Itm2b have been shown to act as a molecular chaperone after ADAM7 is incorporated into the membrane of sperm cells. Furthermore, complex formation with Itm2b is increased during sperm is_associated_with::capacitation leading to a conformation change in ADAM7. As such, the ADAM7 protein plays an important function involved in sperm capacitation, although this function is not entirely understood.

Mechanism of Secretion and Membrane Transfer
ADAM7 is synthesized in epididymis cells and transferred to the membrane of immature sperm cells as they traverse the epididymis during is_associated_with::ejaculation. Epithelial cells of the epididymis incorporate ADAM7 into their membrane normally like other is_associated_with::integral membrane protein. Portions of the membrane are secreted as exosome vesicles. Secretion in this manner is an is_associated_with::apocrine secretion in which apical blebs containing a portion of the epididymis cell are released from the cell. The apical blebs then encounter the immature sperm cell membrane within the convoluted tubules of the epididymis. The apical bleb and immature sperm cell membrane then fuse, ultimately incorporating ADAM7 into the sperm cell membrane.

Physical characteristics
Human ADAM7 contains a sequence of 756 is_associated_with::amino acids. Numerous mammalian is_associated_with::orthologs are currently known. The largest portion of ADAM7 resides in the extracellular space. A short helical transmembrane sequence anchors the sequence while a short cytoplasmic sequence exists. This is consistent and expected as the protein has a secretory function.

Localization
ADAM7 expression is localized in mammalian epididymis cells. Expression of ADAM7 is higher in the head (Caput) of the epididymis and decreases in cells towards the distal epididymis. ADAM7 is also present in mature sperm cell membranes of mice. Thus, ADAM7 is synthesized in the epididymis and transferred to the maturing sperm cell membrane. mRNA transcripts are highly expressed in testes is_associated_with::leydig cells as well.

Model Organisms
Due to the large mammalian homology, ADAM7 is primarily studied in Mus Musculus.