Larissa Osten scite author profile

Employing a yeast two-hybrid screen with the COOH terminus of polycystin-2, one of the proteins mutated in patients with polycystic kidney disease, we were able to isolate a novel protein that we call PIGEA-14 (polycystin-2 interactor, Golgi-and endoplasmic reticulum-associated protein with a molecular mass of 14 kDa). Molecular modeling only predicts a coiled-coil motif, but no other functional domains, in PIGEA-14. In a subsequent two-hybrid screen using PIGEA-14 as a bait, we found GM130, a component of the cis-compartment of the Golgi apparatus. Co-expression of the PIGEA-14 and PKD2 cDNAs in LLC-PK 1 and HeLa cells resulted in a redistribution of PIGEA-14 and polycystin-2 to the trans-Golgi network, which suggests that PIGEA-14 plays an important role in regulating the intracellular location of polycystin-2 and possibly other intracellular proteins. Our results also indicate that the intracellular trafficking of polycystin-2 is regulated both at the level of the endoplasmic reticulum and that of the trans-Golgi network.

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Doxycycline accelerates renal cyst growth and fibrosis in the pcy/pcy mouse model of type 3 nephronophthisis, a form of recessive polycystic kidney disease

Osten

Kubitza

Gallagher

et al. 2009

Histochem Cell Biol

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Nephronophthisis belongs to a family of recessive cystic kidney diseases and may arise from mutations in multiple genes. In this report we have used a spontaneous mouse mutant of type 3 nephronophthisis to examine whether the doxycycline-inducible synthesis of Timp-2, a natural inhibitor of matrix metalloproteinases, can influence renal cyst growth in transgenic mice. Metalloproteinases may exert either a negative or a positive effect on the progression of cystic kidney disease, and we reasoned that this may be most effectively examined by using a natural inhibitor. Surprisingly, already the application of doxycycline, which also inhibits matrix metalloproteinases, accelerated renal cyst growth and led to increased renal fibrosis, an additional effect of Timp-2 was not detected. The positive effect of doxycycline on kidney size was not due to a non-specific "anabolic effect" but was specific for cystic kidneys because it was not observed in non-cystic kidneys. When looking for potential metabolic changes we noticed that the urine of control animals led to an increase in the calcium response of LLC-PK(1) cells, whereas the urine of doxycycline-treated mice showed the opposite effect and even antagonized the urine of control animals. Further experiments demonstrated that the urine of control animals contained a heat-labile, proteinase K-resistant substance which appears to be responsible for the induction of a calcium response in LLC-PK(1) cells. We conclude that doxycycline accelerates cyst growth possibly by the induction of a substance which lowers the intracellular calcium concentration. Our data also add a note of caution when interpreting phenotypes of animal models based upon the tet system.

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A polycystin-2 protein with modified channel properties leads to an increased diameter of renal tubules and to renal cysts

Grosch

Brunner

Ilyaskin

et al. 2021

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Mutations in the PKD2 gene cause autosomal-dominant polycystic kidney disease but the physiological role of polycystin-2, the protein product of PKD2, remains elusive. Polycystin-2 belongs to the transient receptor potential (TRP) family of non-selective cation channels. To test the hypothesis that altered ion channel properties of polycystin-2 compromise its putative role in a control circuit controlling lumen formation of renal tubular structures, we generated a mouse model in which we exchanged the pore loop of polycystin-2 with that of the closely related cation channel polycystin-2L1, thereby creating the protein polycystin-2poreL1. Functional characterization of this mutant channel in Xenopus laevis oocytes demonstrated that its electrophysiological properties differed from those of polycystin-2 but rather resembled the properties of polycystin-2L1, in particular regarding its permeability for Ca2+ ions. Homology modeling of the ion translocation pathway of polycystin-2poreL1 argues for a wider pore in polycystin-2poreL1 than in polycystin-2. In Pkd2poreL1 knock-in mice in which the endogenous polycystin-2 protein was replaced by polycystin-2poreL1 the diameter of collecting ducts was increased and collecting duct cysts developed in a strain-dependent fashion.

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Larissa Osten

Polycystin-2 takes different routes to the somatic and ciliary plasma membrane

PIGEA-14, a Novel Coiled-coil Protein Affecting the Intracellular Distribution of Polycystin-2

Doxycycline accelerates renal cyst growth and fibrosis in the pcy/pcy mouse model of type 3 nephronophthisis, a form of recessive polycystic kidney disease

A polycystin-2 protein with modified channel properties leads to an increased diameter of renal tubules and to renal cysts

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