Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:2.7.11.22 (
cdc2
)
8,319
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hyperparathyroidism
is a central component of multiple endocrine neoplasia type 1 (MEN 1), and both sporadic and familial forms of parathyroid disease may share certain pathogenetic features. We recently identified a gene that is clonally rearranged with the PTH locus in a subset of sporadic parathyroid adenomas. This candidate oncogene, PRAD1 (previously D11S287), appears to contribute to parathyroid tumorigenesis in a fashion analogous to activation of C-MYC or BCL-2 by rearrangement with tissue-specific enhancers of the immunoglobulin genes in B-lymphoid neoplasia. The PRAD1 gene maps to 11q13 and has been linked to the BCL-1 breakpoint locus, although not to the most tightly linked MEN 1 markers, by pulsed field gel electrophoresis. PRAD1 may, in fact, be the long-sought BCL-1 lymphoma oncogene. PRAD1 encodes a novel type of cyclin protein and thus may normally function in controlling the cell cycle, perhaps through direct interaction with
cdc2
or a related kinase. PRAD1's possible primary, or more likely secondary, involvement in the pathogenesis of MEN 1-related tumors is unknown and under investigation.
...
PMID:PRAD1 (cyclin D1): a parathyroid neoplasia gene on 11q13. 148 73
Autosomal dominant polycystic kidney disease (ADPKD) represents the most prevalent inherited kidney disease, and an important contributor to renal and systemic morbidity. Almost 20 years after the discovery of the Pkd-1 and Pkd-2 genes, the exact molecular mechanisms of polycystic kidney disease pathogenesis still remain elusive. In the absence of a specific therapy for polycystic kidney disease, patients are treated for chronic kidney disease symptoms, like hypertension, anemia,
hyperparathyroidism
and pain. Intensive research on ADPKD and a variety of related complex cystic kidney disease syndromes revealed a network of intracellular signaling pathways that depend on ciliary function and include calcium- and cAMP-dependent mechanisms. Furthermore, proliferative and tissue patterning responses to mTOR, STAT,
CDK
and wnt signaling play an important role in various aspects of cystogenesis and represent further targets for therapy. Only a limited amount of clinical evidence from randomized controlled trials is currently available to evaluate treatment options. This includes ongoing trials of the vasopressin receptor-2 antagonist tolvaptan, as well as a set of studies that fail to show a clear therapeutic benefit of everolimus or sirolimus in PKD progression. Future research will involve the evaluation of small molecule inhibitors of growth factor receptor-,
CDK
- and STAT-pathways, as well as the characterization of novel biomarkers of disease progression and therapeutic response.
...
PMID:Polycystic kidney disease: new horizons and therapeutic frontiers. 2353 11
Calcium sensing receptor (CASR) is a G-protein couple receptor which plays a key role in calcium homeostasis in vertebrates. Its extracellular domain is sensitive to divalent cations, aminoacids and polyamines. In parathyroid glands, CASR activation causes parathyroid hormone (PTH) reduction and subsequently a decrease in blood calcium concentration. In PTH-dependent disorders, e.g. primary and secondary
hyperparathyroidism
(
HPT
), the need for therapeutic options other than surgery led to the synthesis of various allosteric CASR agonists (calcimimetics), such as cinacalcet. Cinacalcet is the only calcimimetic approved for
HPT
secondary to chronic kidney disease (
CDK
), parathyroid carcinoma, and, in some countries, primary
HPT
. Clinical trials showed that cinacalcet reduced PTH and calcemia both in
CDK
and primary
HPT
, lowering the risk of bone fractures, surgery, and cardiovascular complications in the former patients. Long-term safety and pharmacoeconomics have to be fully tested yet. Few both in vitro and in vivo studies showed an association between Arg990Gly-CASR polymorphism and cinacalcet sensitivity, though in patients with severe CASR inactivating mutations the drug substantially retained its positive clinical effects. Recently, a new class of allosteric antagonists of CASR, i.e. calcilytics, has been synthesized. Calcilytics are structurally similar to calcimimetics, but exert their effects acting on a different allosteric site. Infusion of calcilytics was followed by transient rise in PTH and calcium. One of these compounds, ronacaleret, was able to increase femur BMD in post menopausal women, but with induction of mild
hyperparathyroidism
. In the future, calcilytics may contribute to the osteoporosis treatment choice.
...
PMID:Pharmacology of the calcium sensing receptor. 2455 24
The protein product of the cyclin D1 oncogene functions by activating partner cyclin-dependent kinases (cdk)4 or
cdk6
to phosphorylate, thereby inactivating, the retinoblastoma protein pRB. Nonclassical, cdk-independent, functions of cyclin D1 have been described but their role in cyclin D1-driven neoplasia, with attendant implications for recently approved
cdk4
/6 chemotherapeutic inhibitors, requires further examination. We investigated whether cyclin D1's role in parathyroid tumorigenesis in vivo is effected primarily through kinase-dependent or kinase-independent mechanisms. Using a mouse model of cyclin D1-driven parathyroid tumorigenesis (PTH-D1), we generated new transgenic lines harboring a mutant cyclin D1 (KE) that is unable to activate its partner kinases. While this kinase-dead KE mutant effectively drove mammary tumorigenesis in an analogous model, parathyroid-overexpressed cyclin D1 KE mice did not develop the characteristic biochemical
hyperparathyroidism
or parathyroid hypercellularity of PTH-D1 mice. These results strongly suggest that in parathyroid cells, cyclin D1 drives tumorigenesis predominantly through cdk-dependent mechanisms, in marked contrast with the cdk-independence of cyclin D1-driven mouse mammary cancer. These findings highlight crucial tissue-specific mechanistic differences in cyclin D1-driven tumorigenesis, suggest that parathyroid/endocrine cells may be more tumorigenically vulnerable to acquired genetic perturbations in cdk-mediated proliferative control than other tissues, and carry important considerations for therapeutic intervention.
...
PMID:CDK4/6 Dependence of Cyclin D1-Driven Parathyroid Neoplasia in Transgenic Mice. 3287 17
