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High ATP6AP2 expression is associated with Renal Damage.
serum s(P)RR could be used as a marker for atherosclerotic conditions in hemodialysis patients
(P)RR may contribute to the homeostatic control of erythropoiesis.
Placental (P)RR can be involved in blood pressure regulation via the tissue RAS. On the other hand, plasma s(P)RR may be involved in the pathogenesis of decreased renal function in preeclampsia.
the present results suggest that ATP6AP2 rs5918007T might be susceptible factors for Essential Hypertension in Chinese Han population.
Study identifies a renin (zeige REN Proteine)-angiotensin system-independent function for the (P)RR in the regulation of LDL metabolism by controlling the levels of SORT1 (zeige SORT1 Proteine) and LDL receptor (zeige LDLR Proteine).
Demonstrate that there are strong interactions between prorenin, ATP6AP2, and TGFB1 (zeige TGFB1 Proteine) and that this system has a greater capacity in female amnion to stimulate profibrotic pathways, thus maintaining the integrity of the fetal membranes.
a novel GLP1R (zeige GLP1R Proteine) Interacting Protein ATP6ap2
Crosstalk between (Pro)renin receptor and COX-2 in the renal medulla during angiotensin II-induced hypertension
This is the first demonstration that (P)RR may be profoundly involved in ductal tumorigenesis in the pancreas.
These results suggest that in vivo the regulation of macroautophagy depends not only on v-H(+)-ATPase (zeige ATP6AP1 Proteine)-mediated regulation of MTORC1.
Ureter bud PRR (zeige PVRL1 Proteine) performs essential functions during UB branching and collecting duct morphogenesis via control of a hierarchy of genes that control UB branching and terminal differentiation of the collecting duct cells.
ATP6AP2 disruption leads to cognitive impairment and neurodegeneration, mimicking aspects of the neuropathology associated with ATP6AP2 mutations in humans.
These findings demonstrate a cell-autonomous requirement for the PRR (zeige PVRL1 Proteine) within nephron progenitors for progenitor maintenance.
Atp6ap2 may form a complex with H+-ATPases in proximal tubule and intercalated cells but that prorenin has no acute effect on H+-ATPase (zeige ATP6AP1 Proteine) activity in intercalated cells.
Data suggest that high glucose (as in hyperglycemia) decreases autophagy and increases apoptosis in podocytes via activation of (pro)renin receptor (Atp6ap2) and PI3K/Akt (zeige AKT1 Proteine)/mTOR (zeige FRAP1 Proteine) signaling pathway.
ANG II (zeige AGT Proteine) acts via AT1R (zeige AGTRAP Proteine) to upregulate PRR (zeige PVRL1 Proteine) expression both in cultured cells and in DOCA-salt hypertensive mice by increasing CREB (zeige CREB1 Proteine) binding to the PRR (zeige PVRL1 Proteine) promoter.
nephron PRR (zeige PVRL1 Proteine) may be important in water regulation by modulating the AVP (zeige AVP Proteine)/V2R/AQP2 (zeige AQP2 Proteine) pathway
the v-ATPase (zeige ATP6V1H Proteine) ATP6AP2 does not appear to have a fusion-promoting role in the formation of phagolysosomes
This gene encodes a protein that is associated with adenosine triphosphatases (ATPases). Proton-translocating ATPases have fundamental roles in energy conservation, secondary active transport, acidification of intracellular compartments, and cellular pH homeostasis. There are three classes of ATPases- F, P, and V. The vacuolar (V-type) ATPases have a transmembrane proton-conducting sector and an extramembrane catalytic sector. The encoded protein has been found associated with the transmembrane sector of the V-type ATPases.
ATPase H(+)-transporting lysosomal-interacting protein 2
, ATPase, H+ transporting, lysosomal (vacuolar proton pump) membrane sector associated protein M8-9
, ATPase, H+ transporting, lysosomal interacting protein 2
, ER-localized type I transmembrane adaptor
, V-ATPase M8.9 subunit
, embryonic liver differentiation factor 10
, renin receptor
, renin/prorenin receptor
, vacuolar ATP synthase membrane sector-associated protein M8-9
, vacuolar proton ATP synthase membrane sector associated protein M8-9
, (pro)renin receptor
, ATPase, H+ transporting, lysosomal interacting protein 1
, V-type proton ATPase subunit d 2
, V-ATPase subunit d 2
, vacuolar proton pump subunit d 2
, ATPase, H+ transporting, lysosomal 38kDa, V0 subunit d
, ATPase, H+ transporting, lysosomal V0 subunit A2
, ATPase, H+ transporting, lysosomal V0 subunit a
, ATPase, H+ transporting, lysosomal 38kDa, V0 subunit d2
, ATPase, H+ transporting, lysosomal accessory protein 2
, Renin receptor
, V-type proton ATPase subunit d 2-like
, v-type proton ATPase subunit d 2-like
, ATPase H(+)-transporting lysosomal accessory protein 2
, ATPase, H(+)-transporting, lysosomal-interacting protein 2
, ATPase, H+ transporting, lysosomal accessory protein 2 S homeolog