Your search keyword '"Mandel AM"' showing total 26 results

1. Vignette of a Child with Developmental Regression, Seizures, and Combined Disorders of Movement.

Author

Radmard S, Bassetti JA, Mandel AM, and Katus L

Subjects

Humans, Developmental Disabilities physiopathology, Male, Female, Child, Preschool, Child, Seizures diagnosis, Movement Disorders physiopathology, Movement Disorders diagnosis

Published

2024

2. The role of the FSGS disease gene product and nuclear pore protein NUP205 in regulating nuclear localization and activity of transcriptional regulators YAP and TAZ.

Author

Ester L, Cabrita I, Ventzke M, Kieckhöfer E, Christodoulou M, Mandel AM, Diefenhardt P, Fabretti F, Benzing T, Habbig S, and Schermer B

Subjects

Humans, Adaptor Proteins, Signal Transducing genetics, Adaptor Proteins, Signal Transducing metabolism, Intracellular Signaling Peptides and Proteins metabolism, Karyopherins, Nuclear Pore metabolism, Phosphoproteins genetics, RNA, Transcription Factors genetics, Transcription Factors metabolism, YAP-Signaling Proteins, Glomerulosclerosis, Focal Segmental genetics, Nuclear Pore Complex Proteins genetics

Abstract

Mutations in genes encoding nuclear pore proteins (NUPs) lead to the development of steroid-resistant nephrotic syndrome and focal segmental glomerulosclerosis (FSGS). However, the precise molecular mechanisms by which NUP dysfunction contributes to podocyte injury preceding FSGS remain unclear. The tightly regulated activity of Yes-associated protein (YAP) and WW-domain-containing transcription regulator 1 (TAZ), the transcriptional effectors of the Hippo pathway, is crucial for podocytes and the maintenance of the glomerular filter. In this study, we investigate the impact of NUPs on the regulation of YAP/TAZ nuclear import and activity in podocytes. In unbiased interactome studies using quantitative label-free mass spectrometry, we identify the FSGS disease gene products NUP107, NUP133, NUP205, and Exportin-5 (XPO5) as components of YAP and TAZ protein complexes in podocytes. Moreover, we demonstrate that NUP205 is essential for YAP/TAZ nuclear import. Consistently, both the nuclear interaction of YAP/TAZ with TEA domain transcription factor 1 and their transcriptional activity were dependent on NUP205 expression. Additionally, we elucidate a regulatory feedback mechanism whereby YAP activity is modulated in response to TAZ-mediated NUP205 expression. In conclusion, this study establishes a connection between the FSGS disease protein NUP205 and the activity of the transcriptional regulators and Hippo effectors YAP and TAZ and it proposes a potential pathological role of YAP/TAZ dysregulation in podocytes of patients with pathogenic NUP205 variants., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2023

3. In planta expression of human polyQ-expanded huntingtin fragment reveals mechanisms to prevent disease-related protein aggregation.

Author

Llamas E, Koyuncu S, Lee HJ, Wehrmann M, Gutierrez-Garcia R, Dunken N, Charura N, Torres-Montilla S, Schlimgen E, Mandel AM, Theile EB, Grossbach J, Wagle P, Lackmann JW, Schermer B, Benzing T, Beyer A, Pulido P, Rodriguez-Concepcion M, Zuccaro A, and Vilchez D

Subjects

Animals, Humans, Peptides genetics, Neurons metabolism, Caenorhabditis elegans genetics, Protein Aggregates, Arabidopsis genetics

Abstract

In humans, aggregation of polyglutamine repeat (polyQ) proteins causes disorders such as Huntington's disease. Although plants express hundreds of polyQ-containing proteins, no pathologies arising from polyQ aggregation have been reported. To investigate this phenomenon, we expressed an aggregation-prone fragment of human huntingtin (HTT) with an expanded polyQ stretch (Q69) in Arabidopsis thaliana plants. In contrast to animal models, we find that Arabidopsis sp. suppresses Q69 aggregation through chloroplast proteostasis. Inhibition of chloroplast proteostasis diminishes the capacity of plants to prevent cytosolic Q69 aggregation. Moreover, endogenous polyQ-containing proteins also aggregate on chloroplast dysfunction. We find that Q69 interacts with the chloroplast stromal processing peptidase (SPP). Synthetic Arabidopsis SPP prevents polyQ-expanded HTT aggregation in human cells. Likewise, ectopic SPP expression in Caenorhabditis elegans reduces neuronal Q67 aggregation and subsequent neurotoxicity. Our findings suggest that synthetic plant proteins, such as SPP, hold therapeutic potential for polyQ disorders and other age-related diseases involving protein aggregation., (© 2023. The Author(s).)

Published

2023

4. Stimulation of Immune Checkpoint Molecule B and T-Lymphocyte Attenuator Alleviates Experimental Crescentic Glomerulonephritis.

Author

Diefenhardt P, Braumann M, Schömig T, Trinsch B, Sierra Gonzalez C, Becker-Gotot J, Völker LA, Ester L, Mandel AM, Hawiger D, Abdallah AT, Schermer B, Göbel H, Brinkkötter P, Kurts C, Benzing T, and Brähler S

Subjects

Mice, Humans, Animals, Immune Checkpoint Proteins, Inflammation complications, Mice, Inbred C57BL, Glomerulonephritis pathology, Glomerulonephritis, Membranoproliferative complications, Nephritis

Abstract

Significance Statement: Treatment of acute, crescentic glomerulonephritis (GN) consists of unspecific and potentially toxic immunosuppression. T cells are central in the pathogenesis of GN, and various checkpoint molecules control their activation. The immune checkpoint molecule B and T-lymphocyte attenuator (BTLA) has shown potential for restraining inflammation in other T-cell-mediated disease models. To investigate its role in GN in a murine model of crescentic nephritis, the authors induced nephrotoxic nephritis in BTLA-deficient mice and wild-type mice. They found that BTLA has a renoprotective role through suppression of local Th1-driven inflammation and expansion of T regulatory cells and that administration of an agonistic anti-BTLA antibody attenuated experimental GN. These findings suggest that antibody-based modulation of BTLA may represent a treatment strategy in human glomerular disease., Background: Modulating T-lymphocytes represents a promising targeted therapeutic option for glomerulonephritis (GN) because these cells mediate damage in various experimental and human GN types. The immune checkpoint molecule B and T-lymphocyte attenuator (BTLA) has shown its potential to restrain inflammation in other T-cell-mediated disease models. Its role in GN, however, has not been investigated., Methods: We induced nephrotoxic nephritis (NTN), a mouse model of crescentic GN, in Btla -deficient ( BtlaKO ) mice and wild-type littermate controls and assessed disease severity using functional and histologic parameters at different time points after disease induction. Immunologic changes were comprehensively evaluated by flow cytometry, RNA sequencing, and in vitro assays for dendritic cell and T-cell function. Transfer experiments into Rag1KO mice confirmed the observed in vitro findings. In addition, we evaluated the potential of an agonistic anti-BTLA antibody to treat NTN in vivo ., Results: The BtlaKO mice developed aggravated NTN, driven by an increase of infiltrating renal Th1 cells. Single-cell RNA sequencing showed increased renal T-cell activation and positive regulation of the immune response. Although BTLA-deficient regulatory T cells (Tregs) exhibited preserved suppressive function in vitro and in vivo , BtlaKO T effector cells evaded Treg suppression. Administration of an agonistic anti-BTLA antibody robustly attenuated NTN by suppressing nephritogenic T effector cells and promoting Treg expansion., Conclusions: In a model of crescentic GN, BTLA signaling effectively restrained nephritogenic Th1 cells and promoted regulatory T cells. Suppression of T-cell-mediated inflammation by BTLA stimulation may prove relevant for a broad range of conditions involving acute GN., (Copyright © 2023 by the American Society of Nephrology.)

Published

2023

5. The role of stereo-electroencephalography to localize the epileptogenic zone in children with nonlesional brain magnetic resonance imaging.

Author

Kim W, Shen MY, Provenzano FA, Lowenstein DB, McBrian DK, Mandel AM, Sands TT, Riviello JJ, McKhann GM, Feldstein NA, and Akman CI

Abstract

Objective: This study aimed to assess the clinical outcome and outcome predictive factors in pediatric epilepsy patients evaluated with stereo-electroencephalography (SEEG)., Methods: Thirty-eight patients who underwent SEEG implantation at the Pediatric Epilepsy Center in New York Presbyterian Hospital between June 2014 and December 2019 were enrolled for retrospective chart review. Postoperative seizure outcomes were evaluated in patients with at least 12-months follow up. Meta-analysis was conducted via electronic literature search of data reported from 2000 to 2020 to evaluate significant surgical outcome predictors for SEEG evaluation in the pediatric population., Results: In the current case series of 25 postsurgical patients with long-term follow up, 16 patients (64.0%) were seizure free. An additional 7 patients (28.0%) showed significant seizure improvement and 2 patients (8.0%) showed no change in seizure activity. Patients with nonlesional magnetic resonance imaging (MRI) achieved seizure freedom in 50% (5/10) of cases. By comparison, 73% (11/15) of patients with lesional MRI achieved seizure freedom. Out of 12 studies, 158 pediatric patients were identified for inclusion in a meta-analysis of the effectiveness of SEEG. Seizure freedom was reported 54.4% (n = 86/158) of patients at last follow up. Among patients with nonlesional MRI, 45% (n = 24) achieved seizure freedom compared with patients with lesional MRI findings (61.2%, n:= 60) (p = 0.02). The risk for seizure recurrence was 2.15 times higher [95% confidence interval [CI] 1.06-4.37, p = 0.033] in patients diagnosed with nonlesional focal epilepsy compared to those with lesional epilepsy [ 1.49 (95% CI 1.06-2.114, p = 0.021]., Conclusion: Evaluation by SEEG implantation in pediatric epilepsy is effective in localizing the epileptogenic zone with favorable outcome. Presence of a non-lesional brain MRI was associated with lower chances of seizure freedom. Further research is warranted to improve the efficacy of SEEG in localizing the epileptogenic zone in pediatric patients with non-lesional brain MRI., (Copyright © 2021. Published by Elsevier B.V.)

Published

2022

6. The carboxy-terminus of the human ARPKD protein fibrocystin can control STAT3 signalling by regulating SRC-activation.

Author

Dafinger C, Mandel AM, Braun A, Göbel H, Burgmaier K, Massella L, Mastrangelo A, Dötsch J, Benzing T, Weimbs T, Schermer B, and Liebau MC

Subjects

Cell Line, Humans, Immunohistochemistry, Phosphorylation, Polycystic Kidney, Autosomal Recessive etiology, Polycystic Kidney, Autosomal Recessive pathology, Receptors, Cell Surface chemistry, Polycystic Kidney, Autosomal Recessive metabolism, Protein Interaction Domains and Motifs, Receptors, Cell Surface metabolism, STAT3 Transcription Factor metabolism, Signal Transduction, src-Family Kinases metabolism

Abstract

Autosomal recessive polycystic kidney disease (ARPKD) is mainly caused by variants in the PKHD1 gene, encoding fibrocystin (FC), a large transmembrane protein of incompletely understood cellular function. Here, we show that a C-terminal fragment of human FC can suppress a signalling module of the kinase SRC and signal transducer and activator of transcription 3 (STAT3). Consistently, we identified truncating genetic variants specifically affecting the cytoplasmic tail in ARPKD patients, found SRC and the cytoplasmic tail of fibrocystin in a joint dynamic protein complex and observed increased activation of both SRC and STAT3 in cyst-lining renal epithelial cells of ARPKD patients., (© 2020 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published

2020

7. A Novel Kv7.3 Variant in the Voltage-Sensing S 4 Segment in a Family With Benign Neonatal Epilepsy: Functional Characterization and in vitro Rescue by β-Hydroxybutyrate.

Author

Miceli F, Carotenuto L, Barrese V, Soldovieri MV, Heinzen EL, Mandel AM, Lippa N, Bier L, Goldstein DB, Cooper EC, Cilio MR, Taglialatela M, and Sands TT

Abstract

Pathogenic variants in KCNQ2 and KCNQ3 , paralogous genes encoding Kv7.2 and Kv7.3 voltage-gated K + channel subunits, are responsible for early-onset developmental/epileptic disorders characterized by heterogeneous clinical phenotypes ranging from benign familial neonatal epilepsy (BFNE) to early-onset developmental and epileptic encephalopathy (DEE). KCNQ2 variants account for the majority of pedigrees with BFNE and KCNQ3 variants are responsible for a much smaller subgroup, but the reasons for this imbalance remain unclear. Analysis of additional pedigrees is needed to further clarify the nature of this genetic heterogeneity and to improve prediction of pathogenicity for novel variants. We identified a BFNE family with two siblings and a parent affected. Exome sequencing on samples from both parents and siblings revealed a novel KCNQ3 variant (c.719T>G; p.M240R), segregating in the three affected individuals. The M240 residue is conserved among human Kv7.2-5 and lies between the two arginines (R5 and R6) closest to the intracellular side of the voltage-sensing S 4 transmembrane segment. Whole cell patch-clamp recordings in Chinese hamster ovary (CHO) cells revealed that homomeric Kv7.3 M240R channels were not functional, whereas heteromeric channels incorporating Kv7.3 M240R mutant subunits with Kv7.2 and Kv7.3 displayed a depolarizing shift of about 10 mV in activation gating. Molecular modeling results suggested that the M240R substitution preferentially stabilized the resting state and possibly destabilized the activated state of the Kv7.3 subunits, a result consistent with functional data. Exposure to β-hydroxybutyrate (BHB), a ketone body generated during the ketogenic diet (KD), reversed channel dysfunction induced by the M240R variant. In conclusion, we describe the first missense loss-of-function (LoF) pathogenic variant within the S 4 segment of Kv7.3 identified in patients with BFNE. Studied under conditions mimicking heterozygosity, the M240R variant mainly affects the voltage sensitivity, in contrast to previously analyzed BFNE Kv7.3 variants that reduce current density. Our pharmacological results provide a rationale for the use of KD in patients carrying LoF variants in Kv7.2 or Kv7.3 subunits., (Copyright © 2020 Miceli, Carotenuto, Barrese, Soldovieri, Heinzen, Mandel, Lippa, Bier, Goldstein, Cooper, Cilio, Taglialatela and Sands.)

Published

2020

8. Diagnosis and management of congenital neurologic disease during pregnancy.

Author

Mandel AM

Subjects

Agenesis of Corpus Callosum, Corpus Callosum diagnostic imaging, Female, Humans, Pregnancy, Prenatal Diagnosis, Ultrasonography, Prenatal, Dandy-Walker Syndrome, Nervous System Malformations

Abstract

Advanced techniques in neuroimaging and genetics, as well as the publication of longer-term prognostic studies, have led to fetal neurology becoming an essential part of prenatal obstetric care. A multidisciplinary approach to providing prenatal counseling is now commonly used in most academic medical centers. Common conditions seen are ventriculomegaly, agenesis of the corpus callosum and other midline abnormalities, and posterior fossa anomalies. The prognosis frequently depends on the severity of the condition and the presence of other anomalies. Certain pathologic processes, such as myelomeningocele, can be treated surgically in the prenatal period, and there is ongoing research regarding potential treatments of other conditions such as tuberous sclerosis. Acquired conditions such as hemorrhage, tumor, and ischemic stroke can also be seen prenatally, and their early diagnosis may inform postnatal care., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

9. Selective protein enrichment in calcium oxalate stone matrix: a window to pathogenesis?

Author

Wesson JA, Kolbach-Mandel AM, Hoffmann BR, Davis C, and Mandel NS

Subjects

Calcium Oxalate analysis, Crystallization, Humans, Kidney Calculi chemistry, Calcium Oxalate metabolism, Kidney Calculi etiology, Proteome metabolism, Urinary Calculi etiology

Abstract

Urine proteins are thought to control calcium oxalate stone formation, but over 1000 proteins have been reported in stone matrix obscuring their relative importance. Proteins critical to stone formation should be present at increased relative abundance in stone matrix compared to urine, so quantitative protein distribution data were obtained for stone matrix compared to prior urine proteome data. Matrix proteins were isolated from eight stones (> 90% calcium oxalate content) by crystal dissolution and further purified by ultradiafiltration (> 10 kDa membrane). Proteomic analyses were performed using label-free spectral counting tandem mass spectrometry, followed by stringent filtering. The average matrix proteome was compared to the average urine proteome observed in random urine samples from 25 calcium oxalate stone formers reported previously. Five proteins were prominently enriched in matrix, accounting for a mass fraction of > 30% of matrix protein, but only 3% of urine protein. Many highly abundant urinary proteins, like albumin and uromodulin, were present in matrix at reduced relative abundance compared to urine, likely indicating non-selective inclusion in matrix. Furthermore, grouping proteins by isoelectric point demonstrated that the stone matrix proteome was highly enriched in both strongly anionic (i.e., osteopontin) and strongly cationic (i.e., histone) proteins, most of which are normally found in intracellular or nuclear compartments. The fact that highly anionic and highly cationic proteins aggregate at low concentrations and these aggregates can induce crystal aggregation suggests that protein aggregation may facilitate calcium oxalate stone formation, while cell injury processes are implicated by the presence of many intracellular proteins.

Published

2019

10. The proteome microenvironment determines the protective effect of preconditioning in cisplatin-induced acute kidney injury.

Author

Späth MR, Bartram MP, Palacio-Escat N, Hoyer KJR, Debes C, Demir F, Schroeter CB, Mandel AM, Grundmann F, Ciarimboli G, Beyer A, Kizhakkedathu JN, Brodesser S, Göbel H, Becker JU, Benzing T, Schermer B, Höhne M, Burst V, Saez-Rodriguez J, Huesgen PF, Müller RU, and Rinschen MM

Subjects

Acute Kidney Injury chemically induced, Acute Kidney Injury metabolism, Animals, Cisplatin toxicity, Complement Activation drug effects, Computational Biology, Disease Models, Animal, Gene Expression Profiling, Humans, Hypoxia etiology, Male, Mice, Proof of Concept Study, Proteolysis drug effects, Severity of Illness Index, Acute Kidney Injury prevention & control, Caloric Restriction, Hypoxia metabolism, Proteome metabolism

Abstract

Acute kidney injury (AKI) leads to significant morbidity and mortality; unfortunately, strategies to prevent or treat AKI are lacking. In recent years, several preconditioning protocols have been shown to be effective in inducing organ protection in rodent models. Here, we characterized two of these interventions-caloric restriction and hypoxic preconditioning-in a mouse model of cisplatin-induced AKI and investigated the underlying mechanisms by acquisition of multi-layered omic data (transcriptome, proteome, N-degradome) and functional parameters in the same animals. Both preconditioning protocols markedly ameliorated cisplatin-induced loss of kidney function, and caloric restriction also induced lipid synthesis. Bioinformatic analysis revealed mRNA-independent proteome alterations affecting the extracellular space, mitochondria, and transporters. Interestingly, our analyses revealed a strong dissociation of protein and RNA expression after cisplatin treatment that showed a strong correlation with the degree of damage. N-degradomic analysis revealed that most posttranscriptional changes were determined by arginine-specific proteolytic processing. This included a characteristic cisplatin-activated complement signature that was prevented by preconditioning. Amyloid and acute-phase proteins within the cortical parenchyma showed a similar response. Extensive analysis of disease-associated molecular patterns suggested that transcription-independent deposition of amyloid P-component serum protein may be a key component in the microenvironmental contribution to kidney damage. This proof-of-principle study provides new insights into the pathogenesis of cisplatin-induced AKI and the molecular mechanisms underlying organ protection by correlating phenotypic and multi-layered omics data., (Copyright © 2018 International Society of Nephrology. Published by Elsevier Inc. All rights reserved.)

Published

2019

11. Ictal onset patterns of subdural intracranial electroencephalogram in children: How helpful for predicting epilepsy surgery outcome?

Author

Alter AS, Dhamija R, McDonough TL, Shen S, McBrian DK, Mandel AM, McKhann GM, Feldstein NA, and Akman CI

Subjects

Adolescent, Child, Child, Preschool, Drug Resistant Epilepsy surgery, Electrodes, Implanted, Epilepsy diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Male, Retrospective Studies, Treatment Outcome, Young Adult, Brain Waves physiology, Electrocorticography methods, Epilepsy surgery, Outcome Assessment, Health Care methods, Subdural Space diagnostic imaging, Subdural Space physiopathology

Abstract

Aims: We aimed to classify ictal onset patterns (IOPs) in pediatric patients undergoing intracranial electroencephalography (IEEG) to guide surgery for refractory epilepsy. We aimed to determine if morphology of IOPs can predict surgical outcome., Materials and Methods: We performed a retrospective review of pediatric patients who underwent epilepsy surgery guided by subdural IEEG from 2007 to 2016. IEEG seizures were reviewed by a blinded epileptologist. Data was collected on outcomes., Results: Twenty-three patients with 784 seizures were included. Age at seizure onset was 0.2-11 (mean 4.3, standard deviation 3.2) years. Age at time of IEEG was 4-20 (mean 13.5, standard deviation 4.4) years. Five distinct IOPs were seen at seizure onset: A) Low voltage fast activity (LVFA) with spread to adjacent electrodes (n = 7 patients, 30%), B) Burst of LVFA followed by electrodecrement (n = 12 patients, 52%), C) Burst of rhythmic spike waves (RSW) followed by electrodecrement (n = 9 patients, 39%), D) RSW followed by LVFA (n = 7 patients, 30%), E) Rhythmic spikes alone (n = 10 patients, 43%). Twelve patients (52%) had the same IOP type with all seizures. When the area of the IOP was resected, 14 patients (61%) had Engel I outcomes. Patients who had LVFA seen within their predominant IOP type were more likely to have good surgical outcomes (odds ratio 7.50, 95% confidence interval 1.02-55.0, p = 0.05). Patients who had only one IOP type were more likely to have good outcomes than patients who had multiple IOP types (odds ratio 12.6, 95% confidence interval 1.19-134, p = 0.04). Patients who had LVFA in their predominant IOP type were older than patients who did not have LVFA (mean age 15.0 vs. 9.9 years, p = 0.02)., Conclusions: LVFA at ictal onset and all seizures having the same IOP morphology are associated with increased likelihood of surgical success in children, but LVFA is less common in children who are younger at the time of IEEG., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

12. Safety and efficacy of stereoelectroencephalography in pediatric focal epilepsy: a single-center experience.

Author

Goldstein HE, Youngerman BE, Shao B, Akman CI, Mandel AM, McBrian DK, Riviello JJ, Sheth SA, McKhann GM, and Feldstein NA

Subjects

Brain Mapping instrumentation, Child, Drug Resistant Epilepsy physiopathology, Drug Resistant Epilepsy surgery, Electrodes, Implanted, Electroencephalography instrumentation, Epilepsies, Partial surgery, Female, Humans, Male, Robotic Surgical Procedures instrumentation, Brain Mapping methods, Electroencephalography methods, Epilepsies, Partial physiopathology, Robotic Surgical Procedures methods, Stereotaxic Techniques instrumentation

Abstract

Objective: Patients with medically refractory localization-related epilepsy (LRE) may be candidates for surgical intervention if the seizure onset zone (SOZ) can be well localized. Stereoelectroencephalography (SEEG) offers an attractive alternative to subdural grid and strip electrode implantation for seizure lateralization and localization; yet there are few series reporting the safety and efficacy of SEEG in pediatric patients., Methods: The authors review their initial 3-year consecutive experience with SEEG in pediatric patients with LRE. SEEG coverage, SOZ localization, complications, and preliminary seizure outcomes following subsequent surgical treatments are assessed., Results: Twenty-five pediatric patients underwent 30 SEEG implantations, with a total of 342 electrodes placed. Ten had prior resections or ablations. Seven had no MRI abnormalities, and 8 had multiple lesions on MRI. Based on preimplantation hypotheses, 7 investigations were extratemporal (ET), 1 was only temporal-limbic (TL), and 22 were combined ET/TL investigations. Fourteen patients underwent bilateral investigations. On average, patients were monitored for 8 days postimplant (range 3-19 days). Nearly all patients were discharged home on the day following electrode explantation. There were no major complications. Minor complications included 1 electrode deflection into the subdural space, resulting in a minor asymptomatic extraaxial hemorrhage; and 1 in-house and 1 delayed electrode superficial scalp infection, both treated with local wound care and oral antibiotics. SEEG localized the hypothetical SOZ in 23 of 25 patients (92%). To date, 18 patients have undergone definitive surgical intervention. In 2 patients, SEEG localized the SOZ near eloquent cortex and subdural grids were used to further delineate the seizure focus relative to mapped motor function just prior to resection. At last follow-up (average 21 months), 8 of 15 patients with at least 6 months of follow-up (53%) were Engel class I, and an additional 6 patients (40%) were Engel class II or III. Only 1 patient was Engel class IV., Conclusions: SEEG is a safe and effective technique for invasive SOZ localization in medically refractory LRE in the pediatric population. SEEG permits bilateral and multilobar investigations while avoiding large craniotomies. It is conducive to deep, 3D, and perilesional investigations, particularly in cases of prior resections. Patients who are not found to have focally localizable seizures are spared craniotomies.

Published

2018

13. Stone former urine proteome demonstrates a cationic shift in protein distribution compared to normal.

Author

Kolbach-Mandel AM, Mandel NS, Hoffmann BR, Kleinman JG, and Wesson JA

Subjects

Adult, Computational Biology, Epidermal Growth Factor metabolism, Female, Humans, Immunoglobulins metabolism, Male, Mass Spectrometry methods, Middle Aged, Protein Aggregation, Pathological pathology, Proteomics methods, Transferrin metabolism, Ultrafiltration, Calcium Oxalate metabolism, Cations metabolism, Proteome metabolism, Urinary Calculi pathology, Urine chemistry

Abstract

Many urine proteins are found in calcium oxalate stones, yet decades of research have failed to define the role of urine proteins in stone formation. This urine proteomic study compares the relative amounts of abundant urine proteins between idiopathic calcium oxalate stone forming and non-stone forming (normal) cohorts to identify differences that might correlate with disease. Random mid-morning urine samples were collected following informed consent from 25 stone formers and 14 normal individuals. Proteins were isolated from urine using ultrafiltration. Urine proteomes for each sample were characterized using label-free spectral counting mass spectrometry, so that urine protein relative abundances could be compared between the two populations. A total of 407 unique proteins were identified with the 38 predominant proteins accounting for >82% of all sample spectral counts. The most highly abundant proteins were equivalent in stone formers and normals, though significant differences were observed in a few moderate abundance proteins (immunoglobulins, transferrin, and epidermal growth factor), accounting for 13 and 10% of the spectral counts, respectively. These proteins contributed to a cationic shift in protein distribution in stone formers compared to normals (22% vs. 18%, p = 0.04). Our data showing only small differences in moderate abundance proteins suggest that no single protein controls stone formation. Observed increases in immunoglobulins and transferrin suggest increased inflammatory activity in stone formers, but cannot distinguish cause from effect in stone formation. The observed cationic shift in protein distribution would diminish protein charge stabilization, which could lead to protein aggregation and increased risk for crystal aggregation.

Published

2017

14. Guaifenesin stone matrix proteomics: a protocol for identifying proteins critical to stone formation.

Author

Kolbach-Mandel AM, Mandel NS, Cohen SR, Kleinman JG, Ahmed F, Mandel IC, and Wesson JA

Subjects

Adult, Female, Humans, Proteomics, Spectroscopy, Fourier Transform Infrared, Expectorants adverse effects, Guaifenesin adverse effects, Kidney Calculi chemistry, Kidney Calculi etiology, Urine chemistry

Abstract

Drug-related kidney stones are a diagnostic problem, since they contain a large matrix (protein) fraction and are frequently incorrectly identified as matrix stones. A urine proteomics study patient produced a guaifenesin stone during her participation, allowing us to both correctly diagnose her disease and identify proteins critical to this drug stone-forming process. The patient provided three random midday urine samples for proteomics studies; one of which contained stone-like sediment with two distinct fractions. These solids were characterized with optical microscopy and Fourier transform infrared spectroscopy. Immunoblotting and quantitative mass spectrometry were used to quantitatively identify the proteins in urine and stone matrix. Infrared spectroscopy showed that the sediment was 60 % protein and 40 % guaifenesin and its metabolite guaiacol. Of the 156 distinct proteins identified in the proteomic studies, 49 were identified in the two stone-components with approximately 50 % of those proteins also found in this patient's urine. Many proteins observed in this drug-related stone have also been reported in proteomic matrix studies of uric acid and calcium containing stones. More importantly, nine proteins were highly enriched and highly abundant in the stone matrix and 8 were reciprocally depleted in urine, suggesting a critical role for these proteins in guaifenesin stone formation. Accurate stone analysis is critical to proper diagnosis and treatment of kidney stones. Many matrix proteins were common to all stone types, but likely not related to disease mechanism. This protocol defined a small set of proteins that were likely critical to guaifenesin stone formation based on their high enrichment and high abundance in stone matrix, and it should be applied to all stone types.

Published

2017

15. Accurate stone analysis: the impact on disease diagnosis and treatment.

Author

Mandel NS, Mandel IC, and Kolbach-Mandel AM

Subjects

Decision Trees, Humans, Kidney Calculi diagnosis, Kidney Calculi therapy, Kidney Calculi chemistry

Abstract

This manuscript reviews the requirements for acceptable compositional analysis of kidney stones using various biophysical methods. High-resolution X-ray powder diffraction crystallography and Fourier transform infrared spectroscopy (FTIR) are the only acceptable methods in our labs for kidney stone analysis. The use of well-constructed spectral reference libraries is the basis for accurate and complete stone analysis. The literature included in this manuscript identify errors in most commercial laboratories and in some academic centers. We provide personal comments on why such errors are occurring at such high rates, and although the work load is rather large, it is very worthwhile in providing accurate stone compositions. We also provide the results of our almost 90,000 stone analyses and a breakdown of the number of components we have observed in the various stones. We also offer advice on determining the method used by the various FTIR equipment manufacturers who also provide a stone analysis library so that the FTIR users can feel comfortable in the accuracy of their reported results. Such an analysis on the accuracy of the individual reference libraries could positively influence the reduction in their respective error rates.

Published

2017

16. The role of macromolecules in the formation of kidney stones.

Author

Rimer JD, Kolbach-Mandel AM, Ward MD, and Wesson JA

Subjects

Calcium Oxalate, Crystallization, Humans, Kidney Calculi chemistry, Polymers, Kidney Calculi etiology, Macromolecular Substances

Abstract

The formation of crystal aggregates, one of the critical processes in kidney stone pathogenesis, involves interactions between crystals (predominantly calcium oxalate monohydrate, COM) and urinary constituents (e.g., proteins), which serve as an adhesive "glue" between crystals in stones. To develop a better understanding of the protein-crystal interactions that lead to crystal aggregation, we have measured the effect of model proteins on bulk COM crystal properties as well as their adsorption on crystal surfaces using three synthetic polyanions: poly(aspartic acid) (polyD), poly(glutamic acid) (polyE), and poly(acrylic acid) (polyAA). These anionic macromolecules reduced the amount of COM crystal aggregation in bulk solution to an extent similar to that observed for mixture of proteins from normal urine, with little difference between the polymers. In contrast, the polymers exhibited differences in measures of COM crystal growth. Polycations such as poly(arginine) (polyR) and poly(lysine) (polyK) reduced aggregation weakly and exerted negligible effects on crystal growth. All polyions were found to associate with COM crystal surfaces, as evidenced by changes in the zeta potential of COM crystals in electrophoretic mobility measurements. On the other hand, COM aggregation and possibly growth can be promoted by many binary mixtures of polycations and polyanions, which appeared to be mediated by polymer aggregate formation rather than loss of crystal charge stabilization. Similarly, crystal aggregation promotion behavior can be driven by forming aggregates of weakly charged polyanions, like Tamm-Horsfall protein, suggesting that polymer (protein) aggregation may play a critical role in stone formation. Sensitivity of polyanion-COM crystal surface interactions to the chemical composition of polymer side groups were demonstrated by large differences in crystal aggregation behavior between polyD and polyE, which correlated with atomic force microscopy (AFM) measurements of growth inhibition on various COM surfaces and chemical force microscopy (CFM) measurements of unbinding forces between COM crystal surfaces and AFM tips decorated with either carboxylate or amidinium moieties (mimicking polyanion and polyR side chains, respectively). The lack of strong interaction for polyE at the COM (100) surface compared to polyD appeared to be the critical difference. Finally, the simultaneous presence of polyanions and polycations appeared to alter the ability of polycations to mediate unbinding forces in CFM and promote crystal growth. In summary, polyanions strongly associated with COM surfaces and influenced crystallization, while polycations did not, though important differences were observed based on the physicochemical properties of polyanions. Observations suggest that COM aggregation with both polyanion-polycation mixtures and weakly charged polyanions is promoted by polymer aggregate formation, which plays a critical role in bridging crystal surfaces., Competing Interests: Ethical approval: None of the authors has any conflicts of interest to report.

Published

2017

17. Polyisobutylene Urolithiasis Due to Ileal Conduit Urostomy Appliance: An Index Case.

Author

Avallone MA, Kolbach-Mandel AM, Mandel IC, Mandel NS, Dietrich PN, Wesson JA, and Davis CM

Abstract

Polyisobutylene (PIB) is a synthetic elastomer that is a component of sealants, adhesives, and chewing gum base. We report a case of bilateral PIB urolithiasis in a patient with an ileal conduit urinary diversion due to neurogenic bladder from spinal cord injury. Infrared spectroscopy confirmed the composition of bilateral stones and adhesive from the patient's urostomy appliance to be PIB. No previous cases of PIB urolithiasis are reported in the literature.

Published

2015

18. Exploring calcium oxalate crystallization: a constant composition approach.

Author

Kolbach-Mandel AM, Kleinman JG, and Wesson JA

Subjects

Crystallization, Magnesium chemistry, Osteopontin chemistry, Oxalates chemistry, Particle Size, Peptides chemistry, Calcium Oxalate chemistry

Abstract

Crystal growth rates have been extensively studied in calcium oxalate monohydrate (COM) crystallization, because COM crystals are the principal component in most kidney stones. Constant composition methods are useful for studying growth rates, but fail to differentiate concurrent nucleation and aggregation events. A constant composition method coupled with particle size determinations that addresses this deficiency was previously published for a calcium phosphate system, and this method was extended to COM crystallization in this report. A seeded constant composition experiment was combined with particle size determination and a separate near-equilibrium aggregation experiment to separate effects of growth rate, nucleation, and aggregation in COM crystal formation and to test the effects of various inhibitors relevant to stone formation. With no inhibitors present, apparent COM growth rates were heavily influenced by secondary nucleation at low seed crystal additions, but growth-related aggregation increased at higher seed crystal densities. Among small molecule inhibitors, citrate demonstrated growth rate inhibition but enhanced growth-related aggregation, while magnesium did not affect COM crystallization. Polyanions (polyaspartate, polyglutamate, or osteopontin) showed strong growth rate inhibition, but large differences in nucleation and aggregation were observed. Polycations (polyarginine) did not affect COM crystal growth or aggregation. Mixtures of polyanions and polycations produced a complicated set of growth rate, nucleation, and aggregation behaviors. These experiments demonstrated the power of combining particle size determinations with constant composition experiments to fully characterize COM crystallization and to obtain detailed knowledge of inhibitor properties that will be critical to understanding kidney stone formation.

Published

2015

19. Biomarkers aiding diagnosis of atypical presentation of pyridoxine-dependent epilepsy.

Author

Segal EB, Grinspan ZM, Mandel AM, and Gospe SM Jr

Subjects

Child, Preschool, Female, Humans, Biomarkers, Epilepsy diagnosis

Abstract

A 2-year-old girl from a consanguineous marriage was evaluated for refractory seizures that had presented at birth. Since her presentation, she had been treated with pyridoxine and antiepileptic medications. Because she did not manifest the expected clinical response, pyridoxine was discontinued, which led to an increase in clinical events. Cerebrospinal fluid neurotransmitter metabolite chromatography and an assay of serum biomarkers, including pipecolic acid and α-aminoadipic semialdehyde, confirmed the diagnosis of pyridoxine-dependent epilepsy, and genetic testing identified a homozygous mutation in our patient, and in a first cousin with epilepsy. The reintroduction of pyridoxine and addition of folinic acid eventually led to control of her seizures. Early testing of biomarkers may prevent delays in diagnosing pyridoxine-dependent epilepsy. We recommend that all patients presenting with cryptogenic seizures before age 18 months undergo this evaluation., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

20. Accuracy and precision of NMR relaxation experiments and MD simulations for characterizing protein dynamics.

Author

Philippopoulos M, Mandel AM, Palmer AG 3rd, and Lim C

Subjects

Escherichia coli enzymology, Reproducibility of Results, Ribonuclease H chemistry, Computer Simulation, Magnetic Resonance Spectroscopy, Proteins chemistry

Abstract

Model-free parameters obtained from nuclear magnetic resonance (NMR) relaxation experiments and molecular dynamics (MD) simulations commonly are used to describe the intramolecular dynamical properties of proteins. To assess the relative accuracy and precision of experimental and simulated model-free parameters, three independent data sets derived from backbone 15N NMR relaxation experiments and two independent data sets derived from MD simulations of Escherichia-coli ribonuclease HI are compared. The widths of the distributions of the differences between the order parameters for pairs of NMR data sets are congruent with the uncertainties derived from statistical analyses of individual data sets; thus, current protocols for analyzing NMR data encapsulate random uncertainties appropriately. Large differences in order parameters for certain residues are attributed to systematic differences between samples for intralaboratory comparisons and unknown, possibly magnetic field-dependent, experimental effects for interlaboratory comparisons. The widths of distributions of the differences between the order parameters for two NMR sets are similar to widths of distributions for an NMR and an MD set or for two MD sets. The linear correlations between the order parameters for an MD set and an NMR set are within the range of correlations observed between pairs of NMR sets. These comparisons suggest that the NMR and MD generalized order parameters for the backbone amide N-H bond vectors are of comparable accuracy for residues exhibiting motions on a fast time scale (< 100 ps). Large discrepancies between NMR and MD order parameters for certain residues are attributed to the occurrence of "rare" motional events over the simulation trajectories, the disruption of an element of secondary structure in one of the simulations, and lack of consensus among the experimental data sets. Consequently, (easily detectable) severe distortions of local protein structure and infrequent motional events in MD simulations appear to be the most serious artifacts affecting the accuracy and precision, respectively, of MD order parameters relative to NMR values. In addition, MD order parameters for motions on a fast (< 100 ps) timescale are more precisely determined than their NMR counterparts, thereby permitting more detailed dynamic characterization of biologically important residues by MD simulation than is sometimes possible by experimental methods. Proteins 28:481-493, 1997.

Published

1997

21. Dynamics of ribonuclease H: temperature dependence of motions on multiple time scales.

Author

Mandel AM, Akke M, and Palmer AG 3rd

Subjects

Amino Acid Sequence, Computer Simulation, Kinetics, Magnetic Resonance Spectroscopy, Recombinant Proteins chemistry, Thermodynamics, Escherichia coli enzymology, Models, Chemical, Models, Structural, Protein Structure, Secondary, Ribonuclease H chemistry

Abstract

The temperature dependence of the backbone motions in Escherichia coli ribonuclease HI was studied on multiple time scales by 15N nuclear magnetic spin relaxation. Laboratory frame relaxation data at 285, 300, and 310 K were analyzed using the model-free and reduced spectral density approaches. The temperature dependence of the order parameters was used to define a characteristic temperature for the motions of the backbone N-H bond vectors on picosecond to nanosecond time scales. The characteristic temperatures for secondary structure elements, loops, and the C-terminus are approximately 1000, approximately 300, and approximately 170 K, respectively. The observed variation in the characteristic temperature indicates that the energy landscape, and thus the configurational heat capacity, is markedly structure dependent in the folded protein. The effective correlation times for internal motions do not show significant temperature dependence. Conformational exchange was observed for a large number of residues forming a contiguous region of the protein that includes the coiled coil formed by helices alpha A and alpha D. Exchange broadening in the CPMG experiments decreased with increased temperature, directly demonstrating that the microscopic exchange rate is faster than the pulse repetition rate of 1.2 ms. The temperature dependence of the exchange contributions to the transverse relaxation rate constant shows approximately Arrhenius behavior over the studied temperature range with apparent activation enthalpies of approximately 20-50 kJ/mol. Numerical calculations suggest that these values underestimate the activation barriers by at most a factor of 2. The present results obtained at 300 K are compared to those reported previously [Mandel, A. M., Akke, M., & Palmer, A. G., III (1995) J. Mol. Biol. 246, 144-163] to establish the reproducibility of the experimental techniques.

Published

1996

22. Backbone dynamics of Escherichia coli ribonuclease HI: correlations with structure and function in an active enzyme.

Author

Mandel AM, Akke M, and Palmer AG 3rd

Subjects

Binding Sites, HIV Reverse Transcriptase, HIV-1 enzymology, Humans, Magnetic Resonance Spectroscopy, Molecular Structure, RNA-Directed DNA Polymerase chemistry, Ribonuclease H metabolism, Structure-Activity Relationship, Escherichia coli enzymology, Models, Molecular, Protein Structure, Secondary, Ribonuclease H chemistry

Abstract

Ribonuclease H is an endonuclease that hydrolyzes the RNA moiety of RNA-DNA duplex molecules. Escherichia coli ribonuclease H is involved in DNA replication, and retroviral ribonuclease H is essential for reverse transcription of the viral genome. To characterize the intramolecular dynamical properties of E. coli ribonuclease H, spin-lattice relaxation rate constants, spin-spin relaxation rate constants and steady state nuclear Overhauser effects for the 15N nuclear spins were measured by using proton-detected heteronuclear NMR spectroscopy. The relaxation data were analyzed by using a series of dynamical models in conjunction with a statistical model selection protocol. Ribonuclease H exhibits a complex array of dynamical features, most notably in the parallel beta-strands of the principal five-stranded beta-sheet, the coiled-coil helical interface, the active site, and the loop regions surrounding the active site. The dynamical properties are correlated with local structural environments of the 15N spins and suggest possible relationships to the functional properties of ribonuclease H. Results for E. coli ribonuclease H are compared to previously reported results for the human immunodeficiency virus type 1 ribonuclease H domain of reverse transcriptase.

Published

1995

23. The electrostatic basis for the interfacial binding of secretory phospholipases A2.

Author

Scott DL, Mandel AM, Sigler PB, and Honig B

Subjects

Amino Acid Sequence, Animals, Binding Sites, Computer Simulation, Crystallography, X-Ray, Electrochemistry, Humans, Kinetics, Macromolecular Substances, Models, Molecular, Molecular Sequence Data, Phospholipases A metabolism, Sequence Homology, Amino Acid, Species Specificity, Phospholipases A chemistry, Protein Conformation

Abstract

Biochemical and structural data suggest that electrostatic forces play a critical role in the binding of secretory phospholipases A2 to substrate aggregates (micelles, vesicles, monolayers, and membranes). This initial binding (adsorption) of the enzyme to the interface is kinetically distinct from the subsequent binding of substrate to the buried active site. Thus, in the absence of specific active-site interactions, electrostatic forces operating at the molecular surface may orient and hold the enzyme at the interface. We have calculated the electrostatic potentials for 10 species of secretory phospholipases A2 whose atomic coordinates have been determined by x-ray crystallography. Most of these enzymes show a marked electrostatic sidedness that is accentuated to a variable degree by the presence of the essential cofactor calcium ion. This asymmetry suggests a discrete interfacial binding region on the protein's surface, the location of which is in general agreement with proposals derived from the results of chemical modification, mutational, and crystallographic experiments.

Published

1994

24. Complete cDNA sequence of a South American isolate of potato virus X.

Author

Orman BE, Celnik RM, Mandel AM, Torres HN, and Mentaberry AN

Subjects

Amino Acid Sequence, Base Sequence, Cloning, Molecular, DNA, Viral, Europe, Molecular Sequence Data, Sequence Homology, Nucleic Acid, Solanum tuberosum microbiology, South America, Genes, Viral, Plant Viruses genetics, RNA, Viral isolation & purification

Abstract

The complete cDNA sequence corresponding to the genomic RNA of a South American strain of potato virus X (PVXc) is reported. The sequence (6432 nucleotides) contains five open reading frames coding for polypeptides with molecular weights of 165.3, 24.3, 12.3, 7.6 and 25.0 and displays an overall homology of 77.4% with those previously reported for two European isolates. Comparison of amino acid sequences shows an average homology of 87%. Two major domains of variability, located between amino acids 476-615 of ORF 1 and 64-100 of ORF 5, are identified. Sequence similarities between RNA stretches lying upstream of ORFs 2, 4 and 5, and at the 3'-non coding regions of PVX and other plus-strand RNA viruses are described.

Published

1990

25. Nucleotide cDNA sequence coding for the PVXc coat protein.

Author

Mandel AM, Orman BE, Celnik R, Torres HN, and Mentaberry AN

Subjects

Amino Acid Sequence, Base Sequence, Molecular Sequence Data, Capsid genetics, Capsid isolation & purification, Capsid Proteins, DNA isolation & purification, Plant Viruses genetics, Solanum tuberosum

Published

1989

26. Relation between the grey crescent and the organizer center of a urodele egg (Triturus torosus).

Author

Schbchtman AM

Published

1936