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29 results on '"Freeze H.H."'

1. Beyond genetics: Deciphering the impact of missense variants in CAD deficiency.

Author

Caño-Ochoa, F. Del, Ng, B.G., Rubio-Del-Campo, A., Mahajan, S., Wilson, M.P., Vilar, M., Rymen, D., Sánchez-Pintos, P., Kenny, J., Ley Martos, M., Campos, T., Wortmann, S.B., Freeze, H.H., Ramón-Maiques, S., Caño-Ochoa, F. Del, Ng, B.G., Rubio-Del-Campo, A., Mahajan, S., Wilson, M.P., Vilar, M., Rymen, D., Sánchez-Pintos, P., Kenny, J., Ley Martos, M., Campos, T., Wortmann, S.B., Freeze, H.H., and Ramón-Maiques, S.

Abstract

Contains fulltext : 299849.pdf (Publisher’s version ) (Open Access), CAD is a large, 2225 amino acid multienzymatic protein required for de novo pyrimidine biosynthesis. Pathological CAD variants cause a developmental and epileptic encephalopathy which is highly responsive to uridine supplements. CAD deficiency is difficult to diagnose because symptoms are nonspecific, there is no biomarker, and the protein has over 1000 known variants. To improve diagnosis, we assessed the pathogenicity of 20 unreported missense CAD variants using a growth complementation assay that identified 11 pathogenic variants in seven affected individuals; they would benefit from uridine treatment. We also tested nine variants previously reported as pathogenic and confirmed the damaging effect of seven. However, we reclassified two variants as likely benign based on our assay, which is consistent with their long-term follow-up with uridine. We found that several computational methods are unreliable predictors of pathogenic CAD variants, so we extended the functional assay results by studying the impact of pathogenic variants at the protein level. We focused on CAD's dihydroorotase (DHO) domain because it accumulates the largest density of damaging missense changes. The atomic-resolution structures of eight DHO pathogenic variants, combined with functional and molecular dynamics analyses, provided a comprehensive structural and functional understanding of the activity, stability, and oligomerization of CAD's DHO domain. Combining our functional and protein structural analysis can help refine clinical diagnostic workflow for CAD variants in the genomics era., 01 november 2023

Published
2023

2. Congenital Disorders of Glycosylation

Author

Varki, A., Cummings, R.D., Esko, J.D., Stanley, P., Hart, G.W., Aebi, M., Mohnen, D., Kinoshita, T., Packer, N.H., Prestegard, J.H., Schnaar, R.L., Seeberger, P.H., Lefeber, D.J., Freeze, H.H., Steet, R., Varki, A., Cummings, R.D., Esko, J.D., Stanley, P., Hart, G.W., Aebi, M., Mohnen, D., Kinoshita, T., Packer, N.H., Prestegard, J.H., Schnaar, R.L., Seeberger, P.H., Lefeber, D.J., Freeze, H.H., and Steet, R.

Abstract

Item does not contain fulltext, This chapter discusses inherited human diseases that are caused by defects in glycan biosynthesis and metabolism (congenital disorders of glycosylation, CDGs). Representative examples are described of genetic defects in the major glycan families and what lessons we can learn from them about glycobiology. Among genetic disorders of glycosylation, those caused by somatic mutations are described in Chapter 46. Disorders affecting the lysosomal degradation of glycans are described in Chapter 44. Although the term “congenital disorders” by definition include those caused by nongenetic, unfavorable in utero conditions, the term “congenital disorders of glycosylation (CDG)” is now widely used as an equivalent of inherited disorders of glycosylation.

Published
2022

3. Congenital Disorders of Glycosylation

Author

Lefeber, D.J., Freeze, H.H., Steet, R., Kinoshita, T., Varki, A., Cummings, R.D., Esko, J.D., Stanley, P., Hart, G.W., Aebi, M., Mohnen, D., Packer, N.H., Prestegard, J.H., Schnaar, R.L., and Seeberger, P.H.

Abstract

This chapter discusses inherited human diseases that are caused by defects in glycan biosynthesis and metabolism (congenital disorders of glycosylation, CDGs). Representative examples are described of genetic defects in the major glycan families and what lessons we can learn from them about glycobiology. Among genetic disorders of glycosylation, those caused by somatic mutations are described in Chapter 46. Disorders affecting the lysosomal degradation of glycans are described in Chapter 44. Although the term “congenital disorders” by definition include those caused by nongenetic, unfavorable in utero conditions, the term “congenital disorders of glycosylation (CDG)” is now widely used as an equivalent of inherited disorders of glycosylation.

Published
2022

4. Predominant and novel de novo variants in 29 individuals with ALG13 deficiency: Clinical description, biomarker status, biochemical analysis, and treatment suggestions.

Author

Tuite A., Rowe L.J., Serrano Russi A.H., Russo R.S., Thabet F., Villanueva M.M., Wang R.Y., Webster R.I., Wilson D., Zalan A., Wolfe L.A., Rosenfeld J.A., Rhodes L., Freeze H.H., Ng B.G., Eklund E.A., Shiryaev S.A., Dong Y.Y., Abbott M.-A., Asteggiano C., Bamshad M.J., Barr E., Bernstein J.A., Chelakkadan S., Christodoulou J., Chung W.K., Ciliberto M.A., Cousin J., Gardiner F., Ghosh S., Graf W.D., Grunewald S., Hammond K., Hauser N.S., Hoganson G.E., Houck K.M., Kohler J.N., Morava E., Larson A.A., Liu P., Madathil S., McCormack C., Meeks N.J.L., Miller R., Monaghan K.G., Nickerson D.A., Palculict T.B., Papazoglu G.M., Pletcher B.A., Scheffer I.E., Schenone A.B., Schnur R.E., Si Y., Tuite A., Rowe L.J., Serrano Russi A.H., Russo R.S., Thabet F., Villanueva M.M., Wang R.Y., Webster R.I., Wilson D., Zalan A., Wolfe L.A., Rosenfeld J.A., Rhodes L., Freeze H.H., Ng B.G., Eklund E.A., Shiryaev S.A., Dong Y.Y., Abbott M.-A., Asteggiano C., Bamshad M.J., Barr E., Bernstein J.A., Chelakkadan S., Christodoulou J., Chung W.K., Ciliberto M.A., Cousin J., Gardiner F., Ghosh S., Graf W.D., Grunewald S., Hammond K., Hauser N.S., Hoganson G.E., Houck K.M., Kohler J.N., Morava E., Larson A.A., Liu P., Madathil S., McCormack C., Meeks N.J.L., Miller R., Monaghan K.G., Nickerson D.A., Palculict T.B., Papazoglu G.M., Pletcher B.A., Scheffer I.E., Schenone A.B., Schnur R.E., and Si Y.

Abstract

Asparagine-linked glycosylation 13 homolog (ALG13) encodes a nonredundant, highly conserved, X-linked uridine diphosphate (UDP)-N-acetylglucosaminyltransferase required for the synthesis of lipid linked oligosaccharide precursor and proper N-linked glycosylation. De novo variants in ALG13 underlie a form of early infantile epileptic encephalopathy known as EIEE36, but given its essential role in glycosylation, it is also considered a congenital disorder of glycosylation (CDG), ALG13-CDG. Twenty-four previously reported ALG13-CDG cases had de novo variants, but surprisingly, unlike most forms of CDG, ALG13-CDG did not show the anticipated glycosylation defects, typically detected by altered transferrin glycosylation. Structural homology modeling of two recurrent de novo variants, p.A81T and p.N107S, suggests both are likely to impact the function of ALG13. Using a corresponding ALG13-deficient yeast strain, we show that expressing yeast ALG13 with either of the highly conserved hotspot variants rescues the observed growth defect, but not its glycosylation abnormality. We present molecular and clinical data on 29 previously unreported individuals with de novo variants in ALG13. This more than doubles the number of known cases. A key finding is that a vast majority of the individuals presents with West syndrome, a feature shared with other CDG types. Among these, the initial epileptic spasms best responded to adrenocorticotropic hormone or prednisolone, while clobazam and felbamate showed promise for continued epilepsy treatment. A ketogenic diet seems to play an important role in the treatment of these individuals.Copyright © 2020 SSIEM

Published
2020

8. CONGENITAL NEPHROTIC SYNDROME IN AN INFANT WITH ALG1-CONGENITAL DISORDER OF GLYCOSYLATION

Author

Harshman, L.A., Ng, B.G., Freeze, H.H., Trapane, P., Dolzeal, A., Brophy, P.D., and Brumbaugh, J.E.

Subjects
Article
Abstract

Congenital nephrotic syndrome in the newborn is most frequently related to mutations in genes specific for structural integrity of the glomerular basement membrane and associated filtration structures within the kidney, resulting in massive leakage of plasma proteins into the urine. Occurrence of congenital nephrotic syndrome in a multi-system syndrome is less common. We describe an infant with deteriorating neurological status, seizures, edema, and proteinuria who was found to have a mutation in ALG1 and a renal biopsy consistent congenital nephrotic syndrome. Furthermore, we briefly review rare existing case reports documenting congenital nephrotic syndrome in patients with ALG1 and treatment strategies, including novel use of peritoneal dialysis.

Published
2016

9. A novel defect of N-glycan synthesis

Author

Scaglia, F., Northrop, J.L., Ou, C.N., Patel, D.G., Gilger, M.A., Karpen, S.J., Westphal, V., and Freeze, H.H.

Subjects
Human genetics -- Research, Glycosylation -- Genetic aspects, Genetic disorders -- Research, Biological sciences
Published
2001

10. Multiple phenotypes in phosphoglucomutase 1 deficiency

Author

Tegtmeyer, L.C., Rust, S., Scherpenzeel, M. van, Ng, B.G., Losfeld, M.E., Timal, S., Raymond, K., He, P., Ichikawa, M., Veltman, J.A., Huijben, K., Shin, Y.S., Sharma, V., Adamowicz, M., Lammens, M., Reunert, J., Witten, A., Schrapers, E., Matthijs, G., Jaeken, J., Rymen, D., Stojkovic, T., Laforet, P., Petit, F., Aumaitre, O., Czarnowska, E., Piraud, M., Podskarbi, T., Stanley, C.A., Matalon, R., Burda, P., Seyyedi, S., Debus, V., Socha, P., Sykut-Cegielska, J., Spronsen, F. van, Meirleir, L. de, Vajro, P., DeClue, T., Ficicioglu, C., Wada, Y., Wevers, R.A., Vanderschaeghe, D., Callewaert, N., Fingerhut, R., Schaftingen, E. van, Freeze, H.H., Morava, E., Lefeber, D.J., Marquardt, T., Tegtmeyer, L.C., Rust, S., Scherpenzeel, M. van, Ng, B.G., Losfeld, M.E., Timal, S., Raymond, K., He, P., Ichikawa, M., Veltman, J.A., Huijben, K., Shin, Y.S., Sharma, V., Adamowicz, M., Lammens, M., Reunert, J., Witten, A., Schrapers, E., Matthijs, G., Jaeken, J., Rymen, D., Stojkovic, T., Laforet, P., Petit, F., Aumaitre, O., Czarnowska, E., Piraud, M., Podskarbi, T., Stanley, C.A., Matalon, R., Burda, P., Seyyedi, S., Debus, V., Socha, P., Sykut-Cegielska, J., Spronsen, F. van, Meirleir, L. de, Vajro, P., DeClue, T., Ficicioglu, C., Wada, Y., Wevers, R.A., Vanderschaeghe, D., Callewaert, N., Fingerhut, R., Schaftingen, E. van, Freeze, H.H., Morava, E., Lefeber, D.J., and Marquardt, T.

Abstract

Contains fulltext : 137499.pdf (publisher's version ) (Open Access), BACKGROUND: Congenital disorders of glycosylation are genetic syndromes that result in impaired glycoprotein production. We evaluated patients who had a novel recessive disorder of glycosylation, with a range of clinical manifestations that included hepatopathy, bifid uvula, malignant hyperthermia, hypogonadotropic hypogonadism, growth retardation, hypoglycemia, myopathy, dilated cardiomyopathy, and cardiac arrest. METHODS: Homozygosity mapping followed by whole-exome sequencing was used to identify a mutation in the gene for phosphoglucomutase 1 (PGM1) in two siblings. Sequencing identified additional mutations in 15 other families. Phosphoglucomutase 1 enzyme activity was assayed on cell extracts. Analyses of glycosylation efficiency and quantitative studies of sugar metabolites were performed. Galactose supplementation in fibroblast cultures and dietary supplementation in the patients were studied to determine the effect on glycosylation. RESULTS: Phosphoglucomutase 1 enzyme activity was markedly diminished in all patients. Mass spectrometry of transferrin showed a loss of complete N-glycans and the presence of truncated glycans lacking galactose. Fibroblasts supplemented with galactose showed restoration of protein glycosylation and no evidence of glycogen accumulation. Dietary supplementation with galactose in six patients resulted in changes suggestive of clinical improvement. A new screening test showed good discrimination between patients and controls. CONCLUSIONS: Phosphoglucomutase 1 deficiency, previously identified as a glycogenosis, is also a congenital disorder of glycosylation. Supplementation with galactose leads to biochemical improvement in indexes of glycosylation in cells and patients, and supplementation with complex carbohydrates stabilizes blood glucose. A new screening test has been developed but has not yet been validated. (Funded by the Netherlands Organization for Scientific Research and others.).

Published
2014

12. SRD5A3 is required for converting polyprenol to dolichol and is mutated in a congenital glycosylation disorder.

Author

Cantagrel, V., Lefeber, D.J., Ng, B.G., Guan, Z., Silhavy, J.L., Bielas, S.L., Lehle, L., Hombauer, H., Adamowicz, M., Swiezewska, E., Brouwer, A.P.M. de, Blumel, P., Sykut-Cegielska, J., Houliston, S., Swistun, D., Ali, B.R., Dobyns, W.B., Babovic-Vuksanovic, D., Bokhoven, J.H.L.M. van, Wevers, R.A., Raetz, C.R., Freeze, H.H., Morava, E., Al-Gazali, L., Gleeson, J.G., Cantagrel, V., Lefeber, D.J., Ng, B.G., Guan, Z., Silhavy, J.L., Bielas, S.L., Lehle, L., Hombauer, H., Adamowicz, M., Swiezewska, E., Brouwer, A.P.M. de, Blumel, P., Sykut-Cegielska, J., Houliston, S., Swistun, D., Ali, B.R., Dobyns, W.B., Babovic-Vuksanovic, D., Bokhoven, J.H.L.M. van, Wevers, R.A., Raetz, C.R., Freeze, H.H., Morava, E., Al-Gazali, L., and Gleeson, J.G.

Abstract

Contains fulltext : 89318.pdf (publisher's version ) (Closed access), N-linked glycosylation is the most frequent modification of secreted and membrane-bound proteins in eukaryotic cells, disruption of which is the basis of the congenital disorders of glycosylation (CDGs). We describe a new type of CDG caused by mutations in the steroid 5alpha-reductase type 3 (SRD5A3) gene. Patients have mental retardation and ophthalmologic and cerebellar defects. We found that SRD5A3 is necessary for the reduction of the alpha-isoprene unit of polyprenols to form dolichols, required for synthesis of dolichol-linked monosaccharides, and the oligosaccharide precursor used for N-glycosylation. The presence of residual dolichol in cells depleted for this enzyme suggests the existence of an unexpected alternative pathway for dolichol de novo biosynthesis. Our results thus suggest that SRD5A3 is likely to be the long-sought polyprenol reductase and reveal the genetic basis of one of the earliest steps in protein N-linked glycosylation.

Published
2010

22. N-Glycans on the receptor for advanced glycation end products influence amphoterin binding and neurite outgrowth.

Author

Srikrishna, G., Huttunen, H.J., Johansson, L., Weigle, B., Yamaguchi, Y., Rauvala, H., and Freeze, H.H.

Subjects
NERVE growth factor, PROTEIN binding
Abstract

In this study we show that embryonic neurite growth-promoting protein amphoterin binds to carboxylated N-glycans previously identified on mammalian endothelial cells. Since amphoterin is a ligand for the receptor for advanced glycation end products (RAGE), and the ligand-binding V-domain of the receptor contains two potential N-glycosylation sites, we hypothesized that N-glycans on RAGE may mediate its interactions with amphoterin. In support of this, anti-carboxylate antibody mAbGB3.1 immunoprecipitates bovine RAGE, and PNGase F treatment reduces its molecular mass by 4.5 kDa, suggesting that the native receptor is a glycoprotein. The binding potential of amphoterin to RAGE decreases significantly in presence of soluble carboxylated glycans or when the receptor is deglycosylated. Oligosaccharide analysis shows that RAGE contains complex type anionic N-glycans with non-sialic acid carboxylate groups, but not the HNK-1 (3-sulfoglucuronyl β1–3 galactoside) epitope. Consistent with the functional localization of RAGE and amphoterin at the leading edges of developing neurons, mAbGB3.1 stains axons and growth cones of mouse embryonic cortical neurons, and inhibits neurite outgrowth on amphoterin matrix. The carboxylated glycans themselves promote neurite outgrowth in embryonic neurons and RAGE-transfected neuroblastoma cells. This outgrowth requires full-length, signalling-competent RAGE, as cells expressing cytoplasmic domain-deleted RAGE are unresponsive. These results indicate that carboxylated N-glycans on RAGE play an important functional role in amphoterin-RAGE-mediated signalling. [ABSTRACT FROM AUTHOR]

Published
2002
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23. Severe hypoglycemia as a presenting symptom of carbohydrate-deficient glycoprotein syndrome

Author

Babovic-Vuksanovic, D., Patterson, M.C., Schwenk, W., O'Brien, J.F., Vockley, J., Freeze, H.H., Mehta, D.P., and Michels, V.V.

Abstract

We describe clinical, biochemical, and molecular findings in a 2 1/2-year-old girl with a phosphomannose isomerase deficiency who presented with severe and persistent hypoglycemia and subsequently developed protein-losing enteropathy, liver disease, and coagulopathy. Six months of therapy with mannose supplementation resulted in clinical improvement and partial correction of biochemical abnormalities. (J Pediatr 1999;135:775-81)

Published
1999
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24. Disorders in protein glycosylation and potential therapy: Tip of an iceberg?

Author

Freeze, H.H.

Abstract

Genetic defects in glycoprotein metabolism usually result in neurologic symptoms, but newly discovered defects in glycoprotein biosynthesis (the carbohydrate-deficient glycoprotein syndromes) also present as severe gastrointestinal disorders with hypoglycemia, protein-losing enteropathy, and hepatic pathology. Glycosylation disorders may be more widespread than previously thought and can be detected by using a simple, but underutilized, serum test. Some patients may benefit from promising dietary therapies now in clinical trials. (J Pediatr 1998;133:593-600)

Published
1998
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25. α-N-Acetylgalactosamine-capping of chondroitin sulfate core region oligosaccharides primed on xylosides

Author

Miura, Y. and Freeze, H.H.

Abstract

We previously reported that cultured mammalian cells incubated with 4-methylumbelliferyl (MU) or p-nitrophenyl (pNP) β-xyloside synthesize an α-GalNAc-terminated pentasaccharide resembling the glycosaminoglycan-core protein linkage region. Here we show that human melanoma M21 cells and human neuroblastoma cells incubated with Xylβ-MU/pNP also make an α-GalNAc-terminated heptasaccharide containing one chondroitin disaccharide repeat. High performance liquid chromatography and matrix-assisted laser desorption ionization mass spectrometry analysis of intact or glycosidase-digested xyloside showed the structure as: GalNAcαGlcAβ1,3GalNAcβ1,4GlcAβ1,3Galβ1,3Galβ1,4Xylβ-MU/pNP. The α-GalNAc-terminated xylosides can account for ∼10% of the total Xylβ-MU/pNP products (∼1.5 nmol/h/mg). These results show that GalNAcαGlcAβ-modification is relatively abundant, but not unique to the GAG-linkage tetrasaccharide. α-GalNAc addition to the GlcA residue does not appear to be an extension of general phase II detoxification of xenobiotics that involve glucuronidation, since M21 cells incubated with MU synthesize only 0.3 pmol GlcAβ-MU/h/mg protein, and undetectable amount of GalNAcαGlcAβ-MU (<40 fmol/h/mg). Further, subcellular fractionation shows that the α-N-acetylgalactosaminyltransferase activity colocalizes in the Golgi with other glycosyl transferases and not in the ER, where xenobiotic detoxification glucuronosyltransferases are found. Although GalNAcαGlcAβ-terminal modification has not been detected on naturally occurring GAG chains, the substantial amount of α-GalNAc transferase activity suggests that the α-GalNAc transferase could utilize other GlcA-containing glycoconjugates as acceptors.

Published
1998

26. Fucoseβ-1-P-Ser is a new type of glycosylation: using antibodies to identify a novel structure in Dictyostelium discoideum and study multiple types of fucosylation during growth and development

Author

Srikrishna, G., Wang, L., and Freeze, H.H.

Abstract

Three antibodies that recognize distinct fucose epitopes were used to study fucosylation during growth and development of Dictyostelium discoideum. mAb83.5 is known to recognize an undefined "fucose epitope" on several proteins with serine-rich domains, while mAb CAB4, and a component of anti-horse-radish peroxidase, specifically recognize Fucα1,6GlcNAc and Fucα1,3GlcNAc residues respectively in the core of N-linked oligosaccharides. We show that mAb 83.5 defines a new type of O-glycosylation. Serine-containing peptides incubated with GDPβ[3H]Fuc and microsomes formed two fucosylated products. A neutral product accounting for 30% of the label did not react with the antibody, while the rest of the label was incorporated into a charged product which contained all the mAb83.5 reactive material. β-Elimination of the labeled peptide or endogenous products produced [3H]Fuc-1-P, indicating phosphodiester linkage to serine. Fucβ-1-P and GDP-βFuc at 100 μM blocked mAb83.5 binding to endogenous and peptide products, but their α-linked anomers did not. Electrospray ionization mass spectra of the neutral and anionic labeled products showed major peaks of mass units corresponding to O-Fuc-Ser peptide and O-Fuc-phospho-Ser peptide, respectively. The activity of Fuc-phosphotransferase exactly paralleled the accumulation of reactive glycans during growth and development. The expressions of N-glycan core Fucα1,6GlcNAc and Fucα1,3GlcNAc and their respective fucosyl transferase activities were also synchronous, but their developmental regulation differed from one another. Fucα1,6GlcNAc was expressed maximally during growth but declined during development. In contrast core Fucα1,3GlcNAc epitopes were expressed almost exclusively during development. These findings provide direct evidence for a novel type of O-phosphofucosylation, demonstrate the existence of an O-fucosyl transferase, and identify two different types of core fucosylation in the N-glycans of Dictyostelium.

Published
1998

29. Golgi acidification by NHE7 regulates cytosolic pH homeostasis in pancreatic cancer cells

Author

Paulina Sosicka, Cosimo Commisso, Giovanni Brandi, Koen M.O. Galenkamp, Yijuan Zhang, Michael Jung, M. Victoria Recouvreux, Matthew R. Moldenhauer, Hudson H. Freeze, Galenkamp K.M.O., Sosicka P., Jung M., Victoria Recouvreux M., Zhang Y., Moldenhauer M.R., Brandi G., Freeze H.H., and Commisso C.

Subjects
0301 basic medicine, Sodium-Hydrogen Exchangers, Intracellular pH, Oncology and Carcinogenesis, pancreatic cancer, Golgi Apparatus, Article, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Homeostasis, Humans, Glycolysis, Pancreas, Actin, NHE7, Chemistry, Golgi apparatus, Hydrogen-Ion Concentration, Cell biology, pH homeostasi, Pancreatic Neoplasms, Cytosol, 030104 developmental biology, Oncology, Cytoplasm, 030220 oncology & carcinogenesis, Cancer cell, symbols, Carcinoma, Pancreatic Ductal
Abstract

abstract Cancer cells reprogram their metabolism to meet elevated energy demands and favor glycolysis for energy production. This boost in glycolytic flux supports proliferation, but also generates acid in the form of hydrogen ions that must be eliminated from the cytoplasm to maintain the alkaline intracellular pH (pHi) associated with transformation. To cope with acid production, tumor cells employ ion transport systems, including the family of sodium–hydrogen exchangers (NHE). Here, we identify NHE7 as a novel regulator of pHi in pancreatic ductal adenocarcinoma (PDAC). We determine that NHE7 suppression causes alkalinization of the Golgi, leading to a buildup of cytosolic acid that diminishes tumor cell fitness mainly through the dysregulation of actin. Importantly, NHE7 knockdown in vivo leads to the abrogation of tumor growth. These results identify Golgi acidification as a mechanism to control pHi and point to the regulation of pHi as a possible therapeutic vulnerability in PDAC. Significance: NHE7 regulates cytosolic pH through Golgi acidification, which points to the Golgi as a “proton sink” for metabolic acid. Disruption of cytosolic pH homeostasis via NHE7 suppression compromises PDAC cell viability and tumor growth. See related commentary by Ward and DeNicola, p. 768. This article is highlighted in the In This Issue feature, p. 747

Published
2020

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