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1.
Int J Mol Sci ; 24(6)2023 Mar 22.
Artigo em Inglês | MEDLINE | ID: mdl-36983051

RESUMO

Diabetic polyneuropathy (DPN) is the most common type of diabetic neuropathy, rendering a slowly progressive, symmetrical, and length-dependent dying-back axonopathy with preferential sensory involvement. Although the pathogenesis of DPN is complex, this review emphasizes the concept that hyperglycemia and metabolic stressors directly target sensory neurons in the dorsal root ganglia (DRG), leading to distal axonal degeneration. In this context, we discuss the role for DRG-targeting gene delivery, specifically oligonucleotide therapeutics for DPN. Molecules including insulin, GLP-1, PTEN, HSP27, RAGE, CWC22, and DUSP1 that impact neurotrophic signal transduction (for example, phosphatidylinositol-3 kinase/phosphorylated protein kinase B [PI3/pAkt] signaling) and other cellular networks may promote regeneration. Regenerative strategies may be essential in maintaining axon integrity during ongoing degeneration in diabetes mellitus (DM). We discuss specific new findings that relate to sensory neuron function in DM associated with abnormal dynamics of nuclear bodies such as Cajal bodies and nuclear speckles in which mRNA transcription and post-transcriptional processing occur. Manipulating noncoding RNAs such as microRNA and long-noncoding RNA (specifically MALAT1) that regulate gene expression through post-transcriptional modification are interesting avenues to consider in supporting neurons during DM. Finally, we present therapeutic possibilities around the use of a novel DNA/RNA heteroduplex oligonucleotide that provides more efficient gene knockdown in DRG than the single-stranded antisense oligonucleotide.


Assuntos
Diabetes Mellitus , Neuropatias Diabéticas , Humanos , Neuropatias Diabéticas/genética , Neuropatias Diabéticas/terapia , Neuropatias Diabéticas/metabolismo , Gânglios Espinais/metabolismo , Células Receptoras Sensoriais/metabolismo , Axônios/metabolismo , Oligonucleotídeos/metabolismo , Diabetes Mellitus/metabolismo
3.
Diabetes ; 71(6): 1299-1312, 2022 06 01.
Artigo em Inglês | MEDLINE | ID: mdl-35276003

RESUMO

Diabetic polyneuropathy (DPN) is the most common complication of diabetes, yet its pathophysiology has not been established. Accumulating evidence suggests that long noncoding RNA metastasis-associated lung adenocarcinoma transcript 1 (MALAT1) plays pivotal roles in the regulation of cell growth and survival during diabetic complications. This study aimed to investigate the impact of MALAT1 silencing in dorsal root ganglion (DRG) sensory neurons, using an α-tocopherol-conjugated DNA/RNA heteroduplex oligonucleotide (Toc-HDO), on the peripheral nervous system of diabetic mice. We identified MALAT1 upregulation in the DRG of chronic diabetic mice that suggested either a pathological change or one that might be protective, and systemic intravenous injection of Toc-HDO effectively inhibited its gene expression. However, we unexpectedly noted that this intervention paradoxically exacerbated disease with increased thermal and mechanical nociceptive thresholds, indicating further sensory loss, greater sciatic-tibial nerve conduction slowing, and additional declines of intraepidermal nerve fiber density in the hind paw footpads. Serine/arginine-rich splicing factors, which are involved in pre-mRNA splicing by interacting with MALAT1, reside in nuclear speckles in wild-type and diabetic DRG neurons; MALAT1 silencing was associated with their disruption. The findings provide evidence for an important role that MALAT1 plays in DPN, suggesting neuroprotection and regulation of pre-mRNA splicing in nuclear speckles. This is also the first example in which a systemically delivered nucleotide therapy had a direct impact on DRG diabetic neurons and their axons.


Assuntos
Diabetes Mellitus Experimental , Neuropatias Diabéticas , RNA Longo não Codificante , Animais , Camundongos , Diabetes Mellitus Experimental/metabolismo , Neuropatias Diabéticas/metabolismo , Gânglios Espinais/metabolismo , Oligonucleotídeos , Precursores de RNA/metabolismo , RNA Longo não Codificante/genética , RNA Longo não Codificante/metabolismo , Fatores de Processamento de Serina-Arginina/metabolismo
4.
Rinsho Shinkeigaku ; 59(1): 21-26, 2019 Jan 30.
Artigo em Japonês | MEDLINE | ID: mdl-30606993

RESUMO

A 69-year-old man was admitted with neck muscle weakness, symmetric proximal muscle weakness, skin rash and elevated serum creatine kinase levels. Muscle biopsy showed perifascicular necrosis and perimysial alkaline phosphatase activity. Chest CT revealed interstitial lung disease and colorectal cancer was diagnosed on colonoscopy. He was serologically positive for anti-EJ antibody, leading to the diagnosis of antisynthetase syndrome (ASS). After laparoscopic low anterior resection of the rectum, he received intravenous methylprednisolone (1,000 mg/d for 3 days) followed by oral prednisolone (50 mg/d). Although his muscle weakness improved after corticosteroid therapy, he developed pericardial effusion with resultant asymptomatic hypotension and arrhythmia possibly due to pericarditis. Corticosteroid monotherapy was insufficient to control the disease, and, we decided to use oral cyclosporin concurrently. After this combined therapy started, pericardial effusion and arrhythmia were improved. We should keep in mind that pericarditis can occur in patients with anti-EJ antibody-positive ASS, and early combined therapy with corticosteroid and immunosuppressive drugs for ASS may improve the patient's prognosis.


Assuntos
Autoanticorpos/sangue , Glicina-tRNA Ligase/imunologia , Miosite/complicações , Miosite/imunologia , Pericardite/etiologia , Idoso , Biomarcadores/sangue , Ciclosporina/administração & dosagem , Progressão da Doença , Humanos , Masculino , Metilprednisolona/administração & dosagem , Miosite/diagnóstico , Miosite/tratamento farmacológico , Pericardite/tratamento farmacológico , Prednisolona/administração & dosagem , Pulsoterapia , Neoplasias Retais/complicações , Neoplasias Retais/cirurgia , Resultado do Tratamento
5.
Exp Toxicol Pathol ; 62(1): 53-60, 2010 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-19261455

RESUMO

Sphingosine 1-phosphate (Sph-1-P) regulates vascular homeostasis through its receptors like S1P1 and S1P2. While S1P1 works to protect vasculature, S1P2 works antagonistically against it. Therefore, the balance of S1P1 and S1P2 determines the regulation of vascular permeability. In diabetic nephropathy, one of the typical pathological changes is endothelial injury possibly as a result of changes in vascular permeability. Therefore, we hypothesized that the balance of S1P1 and S1P2 expression becomes inappropriate in glomeruli of diabetic nephropathy. To verify the hypothesis, five SD rats with diabetes induced by streptozotocin injection and six control rats injected with only the vehicle were analyzed one year after injection. The glomeruli of the diabetic rats exhibited endothelial injuries. The analysis by real-time PCR revealed that the ratio of S1P2/S1P1 mRNA in the renal cortex of the diabetic rats was significantly higher than that in the non-diabetic control group. Immunohistochemistry revealed that S1P1 was expressed by endothelial and mesangial cells, while S1P2 was mainly expressed by mesangial cells in glomeruli. Furthermore, the ratio of the staining intensity of S1P2 to that of S1P1 in the glomeruli was significantly higher in the diabetic rats. The number of cells expressing PDGF-B, which enhances S1P2 expression, was also higher in the glomeruli of the diabetic rats than in the controls. In conclusion, Sph-1-P signals are preferentially transmitted through S1P2, rather than S1P1, in the glomeruli of rats with diabetic nephropathy. Such unbalanced delivery of the Sph-1-P signals might be involved in the pathogenesis of endothelial injuries.


Assuntos
Diabetes Mellitus Experimental/metabolismo , Nefropatias Diabéticas/metabolismo , Receptores de Lisoesfingolipídeo/biossíntese , Animais , Diabetes Mellitus Experimental/patologia , Nefropatias Diabéticas/patologia , Endotélio/metabolismo , Feminino , Regulação da Expressão Gênica , Glomérulos Renais/metabolismo , Glomérulos Renais/patologia , Células Mesangiais/metabolismo , Reação em Cadeia da Polimerase , Ratos , Ratos Sprague-Dawley
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