An electrogenic K+ pump is known to be localized on the apical plasma membrane of certain insect intestinal and sensory epithelial cells. Hypothesis: a unique K+ ATPase is the principal component of this pump and is localized in portasomes on the goblet cell apical membrane (GCAM) of midgut cells in Manduca sexta. Goal: to characterize the K+ pump by determining the role of the K+ ATPase and other pump components in isolated GCAM vesicles and in isolated portasomes.
Aims : (1) to characterize the K+ ATPase both in GCAM and in solubilized form; (2) to characterize K+ transport by isolated GCAM vesicles; (3) to characterize isolated K+ portasomes; (4) to produce antibodies against GCAM proteins for improved isolation of GCAM vesicles and as pump probes, (5) to identify inhibitors of the K+ transport system. GCAM vesicles will be isolated by techniques in which the epithelium is disrupted in layers by controlled sonication and then membrane fragments are collected by differential centrifugation. K+ ATPase will be assayed by a micro method using malachite green for phosphate determination and amido black for protein determination. Membrane potential and K+ gradients across vesicle membranes will be determined by distribtution of radiolabeled thiocyanate and potassium, respectively. Labeled K+ pump proteins will be used to isolate portasomes. To isolate cell lines producing monoclonal antibodies culture fluid of hybridomas prepared from mice injected with GCAM will be screened by an ELISA assay using GCAM and pump proteins as antigen. Carbamates, bacterial toxins, and other nonneuroactive agents will be tested for specific ability to inhibit K+ ATPase. The unique K+ ATPase may be as significant to insect physiologists as the well known Na+, K+ ATPase has been to cell physiologists. Since the gastrointestinal form of the enzyme may be restricted to the midgut of certain lepidopterous pest and dipterous disease vector (mosquito) larvae, specific K+ ATPase inhibitors may be safe insecticides.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI022444-02
Application #
3133508
Study Section
Tropical Medicine and Parasitology Study Section (TMP)
Project Start
1985-09-01
Project End
1988-08-31
Budget Start
1986-09-01
Budget End
1987-08-31
Support Year
2
Fiscal Year
1986
Total Cost
Indirect Cost
Name
Temple University
Department
Type
Schools of Arts and Sciences
DUNS #
City
Philadelphia
State
PA
Country
United States
Zip Code
19122
Gruber, G; Wieczorek, H; Harvey, W R et al. (2001) Structure-function relationships of A-, F- and V-ATPases. J Exp Biol 204:2597-605
Boudko, D Y; Moroz, L L; Linser, P J et al. (2001) In situ analysis of pH gradients in mosquito larvae using non-invasive, self-referencing, pH-sensitive microelectrodes. J Exp Biol 204:691-9
Boudko, D Y; Moroz, L L; Harvey, W R et al. (2001) Alkalinization by chloride/bicarbonate pathway in larval mosquito midgut. Proc Natl Acad Sci U S A 98:15354-9
Wieczorek, H; Grber, G; Harvey, W R et al. (2000) Structure and regulation of insect plasma membrane H(+)V-ATPase. J Exp Biol 203:127-35
Merzendorfer, H; Reineke, S; Zhao, X F et al. (2000) The multigene family of the tobacco hornworm V-ATPase: novel subunits a, C, D, H, and putative isoforms. Biochim Biophys Acta 1467:369-79
Gruber, G; Svergun, D I; Godovac-Zimmermann, J et al. (2000) Evidence for major structural changes in the Manduca sexta midgut V1 ATPase due to redox modulation. A small angle X-ray scattering study. J Biol Chem 275:30082-7
Svergun, D I; Becirevic, A; Schrempf, H et al. (2000) Solution structure and conformational changes of the Streptomyces chitin-binding protein (CHB1). Biochemistry 39:10677-83
Wieczorek, H; Gruber, G; Harvey, W R et al. (1999) The plasma membrane H+-V-ATPase from tobacco hornworm midgut. J Bioenerg Biomembr 31:67-74
Wieczorek, H; Brown, D; Grinstein, S et al. (1999) Animal plasma membrane energization by proton-motive V-ATPases. Bioessays 21:637-48
Zhuang, Z; Linser, P J; Harvey, W R (1999) Antibody to H(+) V-ATPase subunit E colocalizes with portasomes in alkaline larval midgut of a freshwater mosquito (Aedes aegypti). J Exp Biol 202:2449-60

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