Genetic polymorphisms of microsomal epoxide hydrolase and UDP-glucuronosyltransferase (UGT) and its effects on plasma carbamazepine levels and metabolic ratio in persons with epilepsy of South India: A cross-sectional genetic association study.

OBJECTIVES: Carbamazepine (CBZ), an anti-seizure drug, is widely prescribed for the management of focal seizures. At a given therapeutic dose, CBZ exhibits marked interindividual variation in the plasma CBZ levels. The aim wasto study the influence of EPHX1 c.337 T>C and UGT2B7*2 genetic polymorphisms on plasma carbamazepine (CBZ) levels in persons with epilepsy (PWE) from South India. METHODS: 115 PWE belong to South India origin who are on carbamazepine monotherapy were recruited. Genotyping of the two variants weredone using RT-PCR method. PWE who had seizure freedom for one year and their last dose which was not changed for one year duration were included and their plasma levels of CBZ and its active metabolite CBZ 10,11 epoxide were analysed by reverse phase HPLC. RESULTS: In EPHX1 c. 337 (T>C) polymorphism, the PWE carrying CC had lower plasma CBZ levels when compared to CT genotype (2.45 µg/ml vs 3.15 µg/ml. In UGT2B7*2, PWE carrying homozygous mutant TT had higher levels when compared with CT (3.09 µg/ml vs 2.74 µg/ml) genotype but found no statistical significance. Mutant genotype of EPHX1 (CC) had higher metabolic ratio compared to TT genotype (1.33 vs 1.17) but not found to be statistically significant. Mutant genotype of UGT2B7*2 (TT) was found to be having lower metabolic ratio when compared with CC genotype (1.18 vs 1.35; p value =0.08). CONCLUSION: PWE carrying EPHX1 c.337 T>C (rs1051740) and UGT2B7*2 (rs7439366) genetic polymorphisms did not affect the plasma CBZ levels and metabolic ratio of PWE of South Indian origin. However, this finding should be confirmed in a larger sample size which may help in optimization and personalized CBZ therapy in South Indians.

Empiric treatment for persistent fever from suspected autoinflammatory disease: Experience from an undiagnosed diseases program.

BACKGROUND: Patients with persistent fevers of undetermined etiology often undergo extensive evaluation without a diagnosis. Autoinflammatory syndromes may not always be considered in the differential, as these are rare entities, there are no consensus clinical criteria and genetic testing can only capture a few of these diseases. We aimed to describe the experience and value of an undiagnosed diseases program in the evaluation and management of patients who present with persistent fevers. METHODS: A retrospective analysis was performed on eleven patients who presented with persistent fevers to the Undiagnosed Diseases Program (UDP) at University of Alabama at Birmingham. All patients received extensive testing prior to referral and were seen by multiple subspecialists. The primary outcome of complete remission was resolution of episodes of fever and malaise in response to empiric biological anti-inflammatory treatment. RESULTS: All patients received genetic testing and further diagnostic evaluation by the UDP. Even without confirmed genetic testing, they were empirically started on anti-inflammatory therapies (including colchicine, IL-1 inhibitors, IL-6 inhibitors). Ten patients have achieved complete remission on empiric treatment. Three patients were given formal diagnoses. No patients have had any major adverse events from therapy. CONCLUSIONS: This is a pilot study suggesting the role for empiric treatment trials of biologics for patients with suspected autoinflammatory diseases. As the differential diagnosis of patients with persistent fevers is broad, and the diagnosis of autoinflammatory diseases often comes with some degree of uncertainty, evaluation by a center with expertise in diagnosing these conditions can help determine which patients should have empiric trials of biologics.

Molecular targeting of the UDP-glucuronosyltransferase enzymes in high-eukaryotic translation initiation factor 4E refractory/relapsed acute myeloid leukemia patients: a randomized phase II trial of vismodegib, ribavirin with or without decitabine.

Drug resistance underpins poor outcomes in many malignancies including refractory and relapsed acute myeloid leukemia (R/R AML). Glucuronidation is a common mechanism of drug inactivation impacting many AML therapies, e.g., cytarabine, decitabine, azacytidine and venetoclax. In AML cells, the capacity for glucuronidation arises from increased production of the UDP-glucuronosyltransferase 1A (UGT1A) enzymes. UGT1A elevation was first observed in AML patients who relapsed after response to ribavirin, a drug used to target the eukaryotic translation initiation factor eIF4E, and subsequently in patients who relapsed on cytarabine. UGT1A elevation resulted from increased expression of the sonic-hedgehog transcription factor GLI1. Vismodegib inhibited GLI1, decreased UGT1A levels, reduced glucuronidation of ribavirin and cytarabine, and re-sensitized cells to these drugs. Here, we examined if UGT1A protein levels, and thus glucuronidation activity, were targetable in humans and if this corresponded to clinical response. We conducted a phase II trial using vismodegib with ribavirin, with or without decitabine, in largely heavily pre-treated patients with high-eIF4E AML. Pre-therapy molecular assessment of patients' blasts indicated highly elevated UGT1A levels relative to healthy volunteers. Among patients with partial response, blast response or prolonged stable disease, vismodegib reduced UGT1A levels, which corresponded to effective targeting of eIF4E by ribavirin. In all, our studies are the first to demonstrate that UGT1A protein, and thus glucuronidation, are targetable in humans. These studies pave the way for the development of therapies that impair glucuronidation, one of the most common drug deactivation modalities. Clinicaltrials.gov: NCT02073838.

Naftopidil enantiomers suppress androgen accumulation and induce cell apoptosis via the UDP-glucuronosyltransferase 2B15 in benign prostate hyperplasia.

Accumulation of androgens mediate alterations in prostate growth and has emerged as an essential factor in benign prostate hyperplasia (BPH). Dihydrotestosterone (DHT), the most potent natural androgen, binds to androgen receptors (AR) and regulates the prostate growth. Many inhibitors of DHT synthesis have been developed to reduce DHT levels and used in the treatment of prostate diseases. However, therapies targeting the elimination of the DHT remain limited. The DHT in prostate is metabolized by UDP-glucuronosyltransferase 2B (UGT2B) and transforms into inactive products. In this study, we analyzed and demonstrated that two enantiomers of naftopidil (NAF), an α1D/1A-adrenoceptor blocker, induced expression and activity of UGT2B in BPH rat prostate models as well as UGT2B15 in human prostate cells, BPH-1. The NAF enantiomers reduced intraprostatic and intracellular DHT levels, thus promoting cell apoptosis. Besides, assays with siRNA UGT2B15 transfection showed that UGT2B15 played an essential role in mediating the effects of the NAF enantiomers. The UGT2B15 mediated the inhibition of AR and PSA expression by NAF enantiomers. The data showed that the mechanism of upregulating UGT2B15 by the NAF enantiomers might differ from that of AR antagonists and 5α-reductase inhibitors. Together, our results demonstrated that NAF enantiomers could be potential and novel UGT2B15 regulators, which accelerated the DHT elimination and promoted apoptosis of BPH-1 cells. This study could help expand the clinical application of NAF and support the development of new therapeutic strategies targeting the elimination of androgens for the treatment of BPH and other androgen-sensitive diseases.

Case report of sacituzumab govitecan-hziy-induced neutropenia in a patient with metastatic triple-negative breast cancer and a uridine diphosphate glucuronosyltransferase family 1 member A1 poor metabolizer genotype.

INTRODUCTION: Sacituzumab govitecan-hziy, approved in 2020 for treatment of metastatic triple-negative breast cancer, provides a new option for a population with a historically poor prognosis with standard chemotherapy. Uridine diphosphate glucuronosyltransferase family 1 member A1 poor metabolizers are at increased risk for profound neutropenia. This case discusses clinical implications of the uridine diphosphate glucuronosyltransferase family 1 member A1*28/*28 genotype in patients receiving sacituzumab govitecan-hziy. CASE REPORT: A 38-year-old otherwise healthy pre-menopausal female of South Asian descent was diagnosed with non-metastatic, hormone receptor-positive, and human epidermal growth factor receptor 2-negative breast cancer. This was treated with neoadjuvant chemotherapy and multiple lines of subsequent therapies. Upon finding bone metastasis, an additional six lines of therapy ensued. In total, 3.5 years post-diagnosis, sacituzumab govitecan-hziy was started for disease transformation to triple-negative status. MANAGEMENT AND OUTCOME: Sacituzumab govitecan-hziy was initiated at the Food and Drug Administration-approved 10 mg/kg/dose on days 1 and 8 of a 21-day cycle. Grade 4 neutropenia occurred after one dose. Pharmacogenomics testing identified the patient as a uridine diphosphate glucuronosyltransferase family 1 member A1*28 homozygous expressor. Sacituzumab govitecan-hziy was dose-reduced, and granulocyte colony-stimulating factor was administered due to the severity of neutropenia. The patient continued on sacituzumab govitecan-hziy until disease progression. DISCUSSION: Sacituzumab govitecan-hziy's propensity to cause neutropenia is multifactorial. Although incidence of all-grade neutropenia from sacituzumab govitecan-hziy is elevated for uridine diphosphate glucuronosyltransferase family 1 member A1*28 homozygous expressors, this does not translate to increased risk for febrile neutropenia. Detailed guidance is lacking regarding empiric dose adjustments or prophylactic granulocyte colony-stimulating factor for these patients.1 Currently, pre-sacituzumab govitecan-hziy pharmacogenomics testing to identify uridine diphosphate glucuronosyltransferase family 1 member A1 poor metabolizers is not recommended, and the cost-effectiveness of this approach is unclear.

Purinergic dysregulation causes hypertensive glaucoma-like optic neuropathy.

Glaucoma is an optic neuropathy characterized by progressive degeneration of retinal ganglion cells (RGCs) and visual loss. Although one of the highest risk factors for glaucoma is elevated intraocular pressure (IOP) and reduction in IOP is the only proven treatment, the mechanism of IOP regulation is poorly understood. We report that the P2Y6 receptor is critical for lowering IOP and that ablation of the P2Y6 gene in mice (P2Y6KO) results in hypertensive glaucoma-like optic neuropathy. Topically applied uridine diphosphate, an endogenous selective agonist for the P2Y6 receptor, decreases IOP. The P2Y6 receptor was expressed in nonpigmented epithelial cells of the ciliary body and controlled aqueous humor dynamics. P2Y6KO mice exhibited sustained elevation of IOP, age-dependent damage to the optic nerve, thinning of ganglion cell plus inner plexiform layers, and a reduction of RGC numbers. These changes in P2Y6KO mice were attenuated by an IOP lowering agent. Consistent with RGC damage, visual functions were impaired in middle-aged P2Y6KO mice. We also found that expression and function of P2Y6 receptors in WT mice were significantly reduced by aging, another important risk factor for glaucoma. In summary, our data show that dysfunctional purinergic signaling causes IOP dysregulation, resulting in glaucomatous optic neuropathy.

Modulation of spontaneous activity in the overactive bladder: the role of P2Y agonists.

Spinal cord transection (SCT) leads to an increase in spontaneous contractile activity in the isolated bladder that is reminiscent of an overactive bladder syndrome in patients with similar damage to the central nervous system. An increase in interstitial cell number in the suburothelial space between the urothelium and detrusor smooth muscle layer occurs in SCT bladders, and these cells elicit excitatory responses to purines and pyrimidines such as ATP, ADP, and UTP. We have investigated the hypothesis that these agents underlie the increase in spontaneous activity. Rats underwent lower thoracic spinal cord transection, and their bladder sheets or strips, with intact mucosa except where specified, were used for experiments. Isometric tension was recorded and propagating Ca(2+) and membrane potential (E(m)) waves were recorded by fluorescence imaging using photodiode arrays. SCT bladders were associated with regular spontaneous contractions (2.9 ± 0.4/min); ADP, UTP, and UDP augmented the amplitude but not their frequency. With strips from such bladders, a P2Y(6)-selective agonist (PSB0474) exerted similar effects. Fluorescence imaging of bladder sheets showed that ADP or UTP increased the conduction velocity of Ca(2+)/E(m) waves that were confined to regions of the bladder wall with an intact mucosa. When transverse bladder sections were used, Ca(2+)/E(m) waves originated in the suburothelial space and propagated to the detrusor and urothelium. Analysis of wave propagation showed that the suburothelial space exhibited properties of an electrical syncitium. These experiments are consistent with the hypothesis that P2Y-receptor agonists increase spontaneous contractile activity by augmenting functional activity of the cellular syncitium in the suburothelial space.

Activación de la calcio calmodulina quinasa II, CaMKII, por el uridin nucleósido difosfato, UDP, en neuronas granulares de cerebelo / Calcium Calmoduline Kinase II, CaMKII, activation by the uridine nucleoside diphosphate, UPD, in cerebellar granule neurons

Las neuronas granulares de cerebelo en cultivo presentan receptores metabotrópicos de nucleótidos de tipo P2Y6, cuyo agonista fisiológico específico es el nucleótido, uridina difosfato, UDP. Estudios de PCR muestran la presencia de este receptor y el incremento de la expresión con el tiempo. Los estudios de respuesta en célula individual mediante microfluorimetría muestran un incremento del calcio citosólico al estimular con UDP, siendo los incrementos mas significativos en el soma. El incremento del calcio citosólico produce la activación de diversos enzimas dependientes de calcio y concretamente de la calcio-calmodulina quinasa II, CAMKII, enzima que se encuentra ampliamente distribuida en toda la topografía de la neurona granular. Este enzima al activarse se auto-fosforila y mediante anticuerpos contra la forma fosforilada se pueden detectar las zonas mas activas en la célula. Cuando se estimula con UDP, la CaMKII fosforilada aparece fundamentalmente asociada al soma neural, con mucha menor actividad en las prolongaciones axodendríticas, lo que se corresponde con la distribución de los receptores P2Y6 funcionales

Cultured granule cells from cerebellum exhibit nucleotide metabotropic receptors such as the P2Y6 subtype, which physiological agonist is the uridine diphosphate, UDP. The PCR analysis show the presence of P2Y6 messenger RNA, increasing with the days in culture. Single cell microfluorimetric studies show citosolic calcium increase in response to UDP, this being more significant at the soma level. The cytosolic calcium increase triggers cellular responses mediated by calcium dependent enzymes. This is the case for calcium-calmodulin kinase II, CaMKII, which is extensively distributed through the granule neuron, according the immunocytochemical studies. This enzyme once activated is able to autophosphorylate and by using antibodies against the phosphorylated form the active zones can be detected. After UDP stimulation, the location of the phosphorylated form of CaMKII appears to be mainly at the neural soma, with lower presence at the axodendritic prolongations, which correlates with the functional P2Y6 subtype receptor distribution