Polymerase Delta Interacting Protein 2 Sustains Vascular Structure and Function

Sutliff, Roy L.; Hilenski, Lula; Amanso, Angélica M.; Parastatidis, Ioannis; Dikalova, Anna; Hansen, Laura; Datla, Srinivasa Raju; Long, James S.; El-Ali, Alexander; Joseph, Giji; Gleason, Rudolph L.; Taylor, W. Robert; Hart, C. Michael; Griendling, Kathy K.; Lassègue, Bernard

doi:10.1161/atvbaha.113.301913

Cited by 59 publications

(111 citation statements)

References 49 publications

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“…Although positive findings have been reported among older infants (57), the usefulness of urinary NGAL as a marker of AKI in preterm neonates remains unclear (20,23,33,34). Certainly, consistent with previous studies (20,23) we found a significant inverse correlation between urinary NGAL and gestational age at birth; these findings may relate to the immaturity of the kidney, and the clinical instability of the younger neonates.…”

Section: Urinary Ngal As a Marker Of Acute Kidney Injurysupporting

confidence: 86%

“…Nox4 does not require the classical cytoplasmic subunits or Rac1, and activation of Nox4 is undisturbed in cells where Rac1 is knocked down, supporting the notion that Nox4 is Rac independent (41) and suggesting a role for other G protein transduction pathways, perhaps through RhoA. In addition, polymerase (DNA-directed) ␦-interacting protein 2 (Poldip2), a Nox4 enhancing protein, induces cytoskeletal changes, including strengthening of focal adhesions and stress fiber formation in vascular smooth muscle cells, suggesting interplay among these signaling proteins (39,57). A role for RhoA and Poldip2 interactions with Nox4 has not been explored in TGF-␤ 1 -induced myofibroblast activation.…”

Section: Grantsmentioning

confidence: 53%

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The diabetic proximal tubule: part of the problem, and part of the solution?

Weinstein

2014

American Journal of Physiology-Renal Physiology

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PHYSIOLOGICAL INTEREST IN RENAL glucose handling dates to the era of whole organ experiments, with the description of a renal glucose threshold (Tm) and osmotic diuresis (22). Micropuncture identified the proximal tubule as the locus of glucose reabsorption (3), and brush border vesicle preparations (1, 8) and cellular electrophysiology (4, 18) established the Na ϩ dependence of that luminal glucose flux. Careful analysis of vesicle kinetics suggested two glucose transporters, one highcapacity, low-affinity site and a second with high affinity and smaller fluxes (17). The low-affinity carrier localized to the outer cortical region, and the high-affinity carrier localized to outer medullary vesicles. Corresponding to the affinity difference was the determination of a 1:1 (glucose:Na ϩ ) stoichiometry of the cortical cotransporter (6) and a 1:2 stoichiometry of the high-affinity carrier (16). Perfusion of isolated tubule segments confirmed the high-capacity carrier in the proximal convoluted tubule and the high-affinity transporter in the proximal straight tubule, whose maximum flux was ϳ10 -15% of that of the convoluted segment (2). An important advance in renal glucose transport came with the cloning of the gene for the intestinal cotransporter SGLT1 (SLC5A1) (5). In situ hybridization localized SGLT1 to the S3 segment of the proximal tubule, precisely the site suggested by the kinetic data (9). Oocyte expression of SGLT1 enabled extensive electrophysiological investigation and formulation of a mathematical model of the transporter. This work revealed that solute binding affinity is asymmetric, comparing inside and outside of the carrier, and translocation of the empty carrier is the important rate-limiting step and sensitive to the transmembrane potential difference (14). In pursuit of the high-capacity Na ϩ -glucose cotransporter, homology screening revealed the gene for SGLT2 (SLC5A2), expressed in the kidney, for which the stoichiometry is 1:1 and which in situ hybridization localized to the S1 segment of the proximal tubule (7). Kinetic studies confirmed that SGLT2 is the low-affinity, high-capacity system identified in brush border vesicles (23).Subsequent study of Na ϩ -glucose cotransport became more biophysically oriented, until the recent development of safe and specific inhibitors of SGLT2 thrust the topic back into view of the larger biomedical community. These substances are related to phlorizin, the classic nonspecific Na ϩ -glucose cotransport inhibitor, and comprise a growing list, which includes dapagliflozin, canagliflozin, empaglibflozin, ipragliflozin, and tofogliflozin. When given to humans, especially at times of hyperglycemia, these drugs produce glycosuria; when given to diabetic patients, the glycosuria enhances glycemic control and in a manner that promotes caloric loss, rather than weight gain. With the advent of these medications, a new contingent of scientists and physicians has taken an interest in renal glucose metabolism. One point of concern in the adoption of these drugs was th...

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Section: Urinary Ngal As a Marker Of Acute Kidney Injurysupporting

confidence: 86%

Section: Grantsmentioning

confidence: 53%

The diabetic proximal tubule: part of the problem, and part of the solution?

Weinstein

2014

American Journal of Physiology-Renal Physiology

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“…The PDIP38 homozygous state was embryonically lethal, and the heterozygous mice exhibited defects in vascular functions. 24 In correspondence with these findings, the roles of PDIP38 are likely to be complex, and this multifunctional protein appears to participate in multiple and diverse cellular functions.…”

mentioning

confidence: 87%

“…23,24,58 PDIP38 interacts with p22phox and activates Nox4 and positively regulates reactive oxygen species in vascular smooth muscle cells. These events impact focal adhesion, cytoskeletal remodeling and vascular smooth muscle migration.…”

mentioning

confidence: 99%

PDIP38 is translocated to the spliceosomes/nuclear speckles in response to UV-induced DNA damage and is required for UV-induced alternative splicing of MDM2

et al. 2013

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“…Turlo et al 17 showed an essential function of β1-integrin in the maintenance of vasomotor control and highlighted a critical role for β1-integrin in VSMC survival. Furthermore, Sutliff et al 18 demonstrated that Poldip2 knockdown reduces H 2 O 2 production in vivo, leading to increases in extracellular matrix, greater vascular stiffness, and impaired agonist-mediated contraction. Abnormal proliferation and migration of VSMCs are critical events in the progression of several vascular diseases, where AMP-activated protein kinase plays a crucial role in cellular proliferation and migration.…”

Section: Vsmcs For Vascular Functionmentioning

confidence: 99%