Your search keyword '"biochemical classification"' showing total 6 results

1. Metal-Specificity Divergence between Metallothioneins of Nerita peloronta (Neritimorpha, Gastropoda) Sets the Starting Point for a Novel Chemical MT Classification Proposal

Author

Mario García-Risco, Sara Calatayud, Veronika Pedrini-Martha, Ricard Albalat, Reinhard Dallinger, Òscar Palacios, and Mercè Capdevila

Subjects

metallothioneins, Cd-selective, Neritimorpha, biochemical classification, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Metallothioneins’ (MTs) biological function has been a matter of debate since their discovery. The importance to categorize these cysteine-rich proteins with high coordinating capacity into a specific group led to numerous classification proposals. We proposed a classification based on their metal-binding abilities, gradually sorting them from those with high selectivity towards Zn/Cd to those that are Cu-specific. However, the study of the NpeMT1 and NpeMT2isoforms of Nerita peloronta, has put a new perspective on this classification. N. peloronta has been chosen as a representative mollusk to elucidate the metal-binding abilities of Neritimorpha MTs, an order without any MTs characterized recently. Both isoforms have been recombinantly synthesized in cultures supplemented with ZnII, CdII, or CuII, and the purified metal–MT complexes have been thoroughly characterized by spectroscopic and spectrometric methods, leading to results that confirmed that Neritimorpha share Cd-selective MTs with Caenogastropoda and Heterobranchia, solving a so far unresolved question. NpeMTs show high coordinating preferences towards divalent metal ions, although one of them (NpeMT1) shares features with the so-called genuine Zn-thioneins, while the other (NpeMT2) exhibits a higher preference for Cd. The dissimilarities between the two isoforms let a window open to a new proposal of chemical MT classification.

Published

2021

2. Update of Pheochromocytoma Syndromes: Genetics, Biochemical Evaluation, and Imaging

Author

Rami Alrezk, Andres Suarez, Isabel Tena, and Karel Pacak

Subjects

pheochromocytoma, paraganglioma, genetics, biochemical classification, DOTATATE, PRRT, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Pheochromocytomas and paragangliomas (PCCs/PGLs) are rare commonly benign neuroendocrine tumors that share pathology features and clinical behavior in many cases. While PCCs are chromaffin-derived tumors that arise within the adrenal medulla, PGLs are neural-crest-derived tumors that originate at the extraadrenal paraganglia. Pheochromocytoma-paraganglioma (PPGL) syndromes are rapidly evolving entities in endocrinology and oncology. Discoveries over the last decade have significantly improved our understanding of the disease. These include the finding of new hereditary forms of PPGL and their associated susceptibility genes. Additionally, the availability of new functional imaging tools and advances in targeted radionuclide therapy have improved diagnostic accuracy and provided us with new therapeutic options. In this review article, we present the most recent advances in this field and provide an update of the biochemical classification that further reflects our understanding of the disease.

Published

2018

3. Update of Pheochromocytoma Syndromes: Genetics, Biochemical Evaluation, and Imaging.

Author

Alrezk, Rami, Suarez, Andres, Tena, Isabel, and Pacak, Karel

Abstract

Pheochromocytomas and paragangliomas (PCCs/PGLs) are rare commonly benign neuroendocrine tumors that share pathology features and clinical behavior in many cases. While PCCs are chromaffin-derived tumors that arise within the adrenal medulla, PGLs are neural-crest-derived tumors that originate at the extraadrenal paraganglia. Pheochromocytoma-paraganglioma (PPGL) syndromes are rapidly evolving entities in endocrinology and oncology. Discoveries over the last decade have significantly improved our understanding of the disease. These include the finding of new hereditary forms of PPGL and their associated susceptibility genes. Additionally, the availability of new functional imaging tools and advances in targeted radionuclide therapy have improved diagnostic accuracy and provided us with new therapeutic options. In this review article, we present the most recent advances in this field and provide an update of the biochemical classification that further reflects our understanding of the disease. [ABSTRACT FROM AUTHOR]

Published

2018

4. Metal-Specificity Divergence between Metallothioneins of Nerita peloronta (Neritimorpha, Gastropoda) Sets the Starting Point for a Novel Chemical MT Classification Proposal.

Author

García-Risco, Mario, Calatayud, Sara, Pedrini-Martha, Veronika, Albalat, Ricard, Dallinger, Reinhard, Palacios, Òscar, and Capdevila, Mercè

Subjects

*POINT set theory, *COPPER, *NEOGASTROPODA, *METAL ions, *CLASSIFICATION, *GASTROPODA

Abstract

Metallothioneins' (MTs) biological function has been a matter of debate since their discovery. The importance to categorize these cysteine-rich proteins with high coordinating capacity into a specific group led to numerous classification proposals. We proposed a classification based on their metal-binding abilities, gradually sorting them from those with high selectivity towards Zn/Cd to those that are Cu-specific. However, the study of the NpeMT1 and NpeMT2isoforms of Nerita peloronta, has put a new perspective on this classification. N. peloronta has been chosen as a representative mollusk to elucidate the metal-binding abilities of Neritimorpha MTs, an order without any MTs characterized recently. Both isoforms have been recombinantly synthesized in cultures supplemented with ZnII, CdII, or CuII, and the purified metal–MT complexes have been thoroughly characterized by spectroscopic and spectrometric methods, leading to results that confirmed that Neritimorpha share Cd-selective MTs with Caenogastropoda and Heterobranchia, solving a so far unresolved question. NpeMTs show high coordinating preferences towards divalent metal ions, although one of them (NpeMT1) shares features with the so-called genuine Zn-thioneins, while the other (NpeMT2) exhibits a higher preference for Cd. The dissimilarities between the two isoforms let a window open to a new proposal of chemical MT classification. [ABSTRACT FROM AUTHOR]

Published

2021

5. On the classification of antidepressant drugs.

Author

Lewi, Paul and Colpaert, Francis

Abstract

Clinical, pharmacologic, and biochemical profiles of antidepressant drugs have been analyzed statistically. A method derived from multivariate statistics separates mere drug potency from the spectral information contained in the profiles. The dimensionality of the spectra is also reduced and this results in a diagram of associations and dissociations between the antidepressants and their scales of observation. The spectra of antidepressants show three poles which have been labeled as D (desipraminelike), A (amitriptylinelike), and M (MAOI). Clinical spectra agree better between one another than various pharmacologic spectra do. Monoamine oxidase inhibitors are readily differentiated from the tricyclic compounds. The latter appear in the sequence: desipramine, nortriptyline, imipramine, and amitriptyline. This sequence can also be reproduced from biochemical spectra of central and peripheral blockade of norepinephrine and serotonin reuptake. [ABSTRACT FROM AUTHOR]

Published

1976

6. Hierarchical Nonlinear Mixed Effect Modeling: Defining Post-radiation Therapy Relapse in Prostate Cancer Patients

Author

FOX CHASE CANCER CENTER PHILADELPHIA PA, Hanlon, Alexandra L., FOX CHASE CANCER CENTER PHILADELPHIA PA, and Hanlon, Alexandra L.

Abstract

The research accomplished and described here validates and extends a model to classify prostate cancer patients according to disease relapse following definitive radiation therapy. The original model was developed within a hierarchical nonlinear mixed effect modeling framework with likelihood based estimation incorporating the EM algorithm. The model was tested statistically using a subset of 35 patients with relatively homogenous tumor and treatment characteristics. The research described in this report successfully applied the methodology to a larger population of men (>600 patients) representing all stages of disease via the modeling of covariates, including tumor differentiation, stage, and pre-treatment PSA. The success of the modeling was dependent upon a Bayesian framework with Markov chain Monte Carlo methodology for estimating mixture distribution parameters. Poor mixing and slow convergence were encountered and required various re-parameterizations and creative initialization techniques. The analysis includes an assessment of predictors of post-nadir rise, as salvage therapy strategies are often designed around the rate of increase in PSA levels post-nadir, as well as an analysis of predictors of initial decline and its relationship to outcome. The modeling was compared to biochemical classification using a clinical definition of relapse and also to clinical results as obtained from imaging and/or biopsy.

Published

2004