Elizabeth M. Inman scite author profile

The Na-K-ATPase, or sodium pump, is comprised of two subunits, alpha and beta. Each subunit spans the lipid bilayer of the cell membrane. This review summarizes our efforts to determine how the two subunits interact to form the functional ion transporter. Our major approach has been to observe the potential for subunit assembly when one or both subunits are truncated or present as chimeras that retain only a limited region of the Na-K-ATPase. DNAs encoding these altered subunit forms of the avian Na-K-ATPase are expressed in mammalian cells. Monoclonal antibodies specific for the avian beta-subunit are then used to purify newly synthesized avian beta-subunits, and the presence of accompanying alpha-subunits indicates that subunit assembly has occurred. The ectodomain of the beta-subunit (approximately residues 62-304) is sufficient for assembly with the alpha-subunit, and a COOH-terminal truncation of the beta-subunit that lacks aminoacyl residues beyond 162 will assemble inefficiently. A maximum of 26 aminoacyl residues of the alpha-subunit are necessary for robust assembly with the beta-subunit, when this sequence replaces the COOH-terminal half of the loop between membrane spans 7 and 8 in the SERCA1 Ca-ATPase. This region of the Ca-ATPase faces the lumen of the endoplasmic reticulum. These findings encourage study of other related questions, including whether there is preferential assembly of certain subunit isoforms and how various P-type ATPases are targeted to their appropriate subcellular compartments.

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Chapter 3 Structural Requirements for Subunit Assembly of the Na, K-ATPase

Fambrough¹,

Lemas²,

Renaud³

et al. 1994

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Cytoplasmic and transmembrane domain deletions of Na,K-ATPase beta-subunit. Effects on subunit assembly and intracellular transport.

Renaud¹,

Inman²,

Fambrough³

1991

Journal of Biological Chemistry

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Fibrin as a delivery vehicle for active macrophage activator lipoprotein‐2 peptide: in vitro studies

Cole

Cox

Inman

et al. 2007

Wound Repair Regeneration

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Fibrin sealants have been used in hemostasis and tissue sealing for over 25 years and recent studies have shown them to be an ideal delivery vehicle for cells and bioactive substances. We examined the use of fibrin as a delivery vehicle for the macrophage activator lipoprotein peptide (MALP)-2. MALP-2, secreted by mycoplasma, plays an important role in an early influx of leukocytes and infiltration by monocytes and their subsequent activation into macrophages as detected by their secretion of cytokines and chemoattractants. We first showed that MALP-2 activated several monocytic cell lines by increasing the expression of cytokines and chemoattractants in these cells. Furthermore, using a reverse transcription-polymerase chain reaction approach, we found that MALP-2 affected the gene expression of its own receptors: TLR2 and TLR4 in various cell types including fibroblasts, keratinocytes, and endothelial cells. Furthermore, the conditioned medium, containing secreted cytokines and chemoattractants, collected from monocytes treated with MALP-2 enhanced fibroblast migration using a standard wound culture assay. Next, we examined MALP-2's effect on the human monocyte cell line when it is mixed with fibrin. Monocytes seeded on three-dimensional fibrin containing MALP-2 secreted more cytokines such as interleukin-6, tumor necrosis factor-alpha, and chemoattractants such as macrophage inflammatory protein 1 alpha and monocyte chemoattractant protein 1 when compared with monocytes seeded on three-dimensional fibrin in the absence of MALP-2. This study supports the use of fibrin to deliver MALP-2, and possibly other peptides, in an active form that might enhance wound healing.

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