Toxic Effects of Methamphetamine on Reproductive Systems, Embryo Development, and Newborns: An Evidence-Based Review.

Methamphetamine (METH), an amphetamine-type stimulant, has been extensively abused globally in the past decades. METH use causes great harm to the major systems of the human body. Specifically, METH has a negative impact on the hypothalamic- pituitary-testicular axis, testicular structure, sperm function, ovarian folliculogenesis, oocyte quality, embryo development, and newborns. However, the mechanisms underlying these toxic effects have not yet been fully described. This study reviews the evidence concerning the impact of METH on male and female reproduction in the context of the testis, sperm, ovaries, oocytes, reproductive hormones, embryo development, and newborns, discussing the potential pathophysiological mechanisms in the reproductive toxicity induced by METH.

GPR55 activation improves anxiety- and depression-like behaviors of mice during methamphetamine withdrawal.

Methamphetamine is a potent and highly addictive neurotoxic psychostimulant that triggers a spectrum of adverse emotional responses during withdrawal. G-protein coupled receptor 55 (GPR55), a novel endocannabinoid receptor, is closely associated with mood regulation. Herein, we developed a murine model of methamphetamine-induced anxiety- and depressive-like behavior during abstinence which showed a decreased GPR55 expression in the hippocampus. Activation of GPR55 mitigated these behavioral symptoms, concomitantly ameliorating impairments in hippocampal neurogenesis and reducing neuroinflammation. These findings underscore the pivotal role of GPR55 in mediating the neuropsychological consequences of methamphetamine withdrawal, potentially via mechanisms involving the modulation of hippocampal neurogenesis and inflammation.

Interfering with reconsolidation by rimonabant results in blockade of heroin-associated memory.

Drug-associated pathological memory remains a critical factor contributing to the persistence of substance use disorder. Pharmacological amnestic manipulation to interfere with drug memory reconsolidation has shown promise for the prevention of relapse. In a rat heroin self-administration model, we examined the impact of rimonabant, a selective cannabinoid receptor indirect agonist, on the reconsolidation process of heroin-associated memory. The study showed that immediately administering rimonabant after conditioned stimuli (CS) exposure reduced the cue- and herion + cue-induced heroin-seeking behavior. The inhibitory effects lasted for a minimum of 28 days. The effect of Rimonabant on reduced drug-seeking was not shown when treated without CS exposure or 6 hours after CS exposure. These results demonstrate a disruptive role of rimonabant on the reconsolidation of heroin-associated memory and the therapeutic potential in relapse control concerning substance use disorder.

Regulation of histone acetylation by garcinol blocks the reconsolidation of heroin-associated memory.

Drug-associated long-term memories underlie substance use disorders, including heroin use disorder (HUD), which are difficult to eliminate through existing therapies. Addictive memories may become unstable when reexposed to drug-related cues and need to be stabilized again through protein resynthesis. Studies have shown the involvement of histone acetylation in the formation and reconsolidation of long-term drug-associated memory. However, it remains unknown whether and how histone acetyltransferases (HAT), the essential regulators of histone acetylation, contribute to the reconsolidation of heroin-associated memories. Herein, we investigated the function of HAT in the reconsolidation concerning heroin-conditioned memory by using a rat self-administration model. Systemic administration of the HAT inhibitor garcinol inhibited cue and heroin-priming induced reinstatement of heroin seeking, indicating the treatment potential of garcinol for relapse prevention.

The Role of Sgt1 in Methamphetamine/Hyperthermia-induced Necroptosis.

INTRODUCTION: Methamphetamine (METH) is a synthetic drug widely abused globally and can result in hyperthermia (HT) and psychiatric symptoms. Our previous studies showed that heat shock protein 90 alpha (HSP90α) plays a vital role in METH/HT-elicited neuronal necroptosis; however, the detailed mechanism of HSP90α regulation remained obscure. METHODS: Herein, we demonstrated a function of the suppressor of G-two allele of SKP1 (Sgt1) in METH/HT-induced necroptosis. Sgt1 was mainly expressed in neurons, co-located with HSP90α, and increased in rat striatum after METH treatment. METH/HT injury triggered necroptosis and increased Sgt1 expression in PC-12 cells. RESULT: Data from computer simulations indicated that Sgt1 might interact with HSP90α. Geldanamycin (GA), the specific inhibitor of HSP90α, attenuated the interaction between Sgt1 and HSP90α. Knockdown of Sgt1 expression did not affect the expression level of HSP90α. Still, it inhibited the expression of receptor-interacting protein 3 (RIP3), mixed lineage kinase domain-like protein (MLKL), p-RIP3, and p-MLKL, as well as necroptosis induced by METH/HT injury. CONCLUSION: In conclusion, Sgt1 may regulate the expression of RIP3, p-RIP3, MLKL, and p-MLKL by assisting HSP90α in affecting the METH/HT-induced necroptotic cell death.

Histone modifications in cocaine, methamphetamine and opioids.

Cocaine, methamphetamine and opioids are leading causes of drug abuse-related deaths worldwide. In recent decades, several studies revealed the connection between and epigenetics. Neural cells acquire epigenetic alterations that drive the onset and progress of the SUD by modifying the histone residues in brain reward circuitry. Histone modifications, especially acetylation and methylation, participate in the regulation of gene expression. These alterations, as well as other host and microenvironment factors, are associated with a serious of negative neurocognitive disfunctions in various patient populations. In this review, we highlight the evidence that substantially increase the field's ability to understand the molecular actions underlying SUD and summarize the potential approaches for SUD pharmacotherapy.

A bibliometric analysis on traumatic brain injury in forensic medicine of a half-century (1972-2021).

Traumatic brain injury (TBI) is among the most common injuries in forensic medicine, the identification of which is of particular importance in forensic practice. To reveal the circumstances and trends of TBI in the forensic field, we used the Web of Science (WoS) database for comprehensive retrieval. We made a metrological analysis of 1,089 papers in the past 50 years (1972-2021). The United States and Germany have the most forensic research on TBI. Diffuse axonal injury (DAI) has been the focus of attention for many years, and much effort has been devoted to its diagnosis in forensic pathology. Infants and children are the subgroups of most concern, especially in infant and child abuse cases. Research on identifying shaken baby syndrome has received increasing attention in recent years. Overall, our study provides a comprehensive list and analysis of the articles regarding TBI in legal medicine, which may shed light on recognizing the trends and research hotspots in this field.

MicroRNAs in Methamphetamine-Induced Neurotoxicity and Addiction.

Methamphetamine (METH) abuse remains a significant public health concern globally owing to its strong addictive properties. Prolonged abuse of the drug causes irreversible damage to the central nervous system. To date, no efficient pharmacological interventions are available, primarily due to the unclear mechanisms underlying METH action in the brain. Recently, microRNAs (miRNAs) have been identified to play critical roles in various cellular processes. The expression levels of some miRNAs are altered after METH administration, which may influence the transcription of target genes to regulate METH toxicity or addiction. This review summarizes the miRNAs in the context of METH use, discussing their role in the reward effect and neurotoxic sequelae. Better understanding of the molecular mechanisms involved in METH would be helpful for the development of new therapeutic strategies in reducing the harm of the drug.

Effects of nitric oxide on C2C12 cell inflammatory responses and notexin-induced muscle injury / Efectos del óxido nítrico en las respuestas inflamatorias de las células C2C12 y la lesión muscular inducida por notexina

SUMMARY: Skeletal muscle injury is an acute inflammatory condition caused by an inflammatory response. To reduce inflammatory cell infiltration and relieve skeletal muscle injury, efficient treatment is urgently needed. Nitric oxide is a free radical molecule reported to have anti-inflammatory effects. In this study, we showed that NO could inhibit the inflammatory response of C2C12 cells in vitro and protect rat skeletal muscle injury from notexin in vivo. NO synthase inhibitor (L-NG-Nitroarginine Methyl Este?L-NAME) and NO donor (sodium nitroprusside dehydrate ?SNP) were used to explore the vital role of lipopolysaccharides (LPSs) in LPS-stimulated C2C12 myoblasts.The expression of IL-18 and IL-1b was upregulated by L-NAME and downregulated by SNP, as indicated by the ELISA results. NO can reduce ASC, Caspase-1, and NLRP3 mRNA and protein levels. Furthermore, NO was detected in the rat model. The results of immunohistochemical staining showed that the production of DMD decreased. We conducted qRT-PCR and western blotting to detect the expression of Jo-1, Mi-2, TLR2, and TLR4 on day 6 post injury following treatment with L-NAME and SNP. The expression of Jo-1, Mi-2, TLR2, and TLR4 was upregulated by L-NAME and significantly reversed by SNP. NO can alleviate C2C12 cell inflammatory responses and protect rat skeletal muscle injury from notexin.

RESUMEN: La lesión del músculo esquelético es una afección inflamatoria aguda causada por una respuesta inflamatoria. Para reducir la infiltración de células inflamatorias y aliviar la lesión del músculo esquelético es necesario un tratamiento eficaz. El óxido nítrico es una molécula de radicales libres que tiene efectos antiinflamatorios. En este estudio, demostramos que el ON podría inhibir la respuesta inflamatoria de las células C2C12 in vitro y proteger la lesión del músculo esquelético de rata de la notexina in vivo. El inhibidor de ON sintasa (L-NG-nitroarginina metil este, L-NAME) y el donante de ON (nitroprusiato de sodio deshidratado, SNP) se utilizaron para explorar el papel vital de los lipopolisacáridos (LPS) en los mioblastos C2C12 estimulados por LPS. La expresión de IL- 18 e IL-1b fue regulada positivamente por L-NAME y regulada negativamente por SNP, como indican los resultados de ELISA. El ON puede reducir los niveles de proteína y ARNm de ASC, Caspasa-1 y NLRP3. Además, se detectó ON en el modelo de rata. Los resultados de la tinción inmunohistoquímica mostraron que disminuyó la producción de DMD. Realizamos qRT-PCR y transferencia Western para detectar la expresión de Jo-1, Mi-2, TLR2 y TLR4 el día 6 después de la lesión después del tratamiento con L-NAME y SNP. La expresión de Jo-1, Mi-2, TLR2 y TLR4 fue regulada positivamente por L- NAME y significativamente revertida por SNP. El ON puede aliviar las respuestas inflamatorias de las células C2C12 en ratas, y proteger la lesión del músculo esquelético de la notexina.

The application of instant evaluation based on information technology in anatomy teaching from China / Aplicación de evaluación instantánea basada en tecnología de la información en la enseñanza de la anatomía en China

SUMMARY: The information technology (IT) based "instant evaluation" is supported by IT, which allows instant evaluation of teaching phenomena based on certain evaluation criteria and provides instant feedback. In anatomy teaching, we explored and practiced the application of instant evaluation based on a platform called "Rain classroom." We found that IT-based instant evaluation had higher practicability and better student satisfaction, which could improve teaching efficiency during class time, help students improve learning methods, and promote knowledge mastery. Additionally, instant evaluation positively impacted teachers' evaluation ability and teaching skills.

RESUMEN: La "evaluación instantánea" basada en la tecnología de la información (TI) está respaldada por ésta y permite la evaluación instantánea de los fenómenos de enseñanza en función de ciertos criterios de evaluación proporcionando retroalimentación instantánea. En la enseñanza de la anatomía, exploramos y practicamos la aplicación de la evaluación instantánea basada en una plataforma llamada "Aula de lluvia" o Rain Classroom. Descubrimos que la evaluación instantánea basada en TI tenía una mayor practicidad y una mejor satisfacción de los estudiantes, lo que podría mejorar la eficiencia de la enseñanza durante el tiempo de clase, ayudar a los estudiantes a mejorar los métodos de aprendizaje y promover el dominio del conocimiento. Además, la evaluación instantánea tuvo un impacto positivo en la capacidad de evaluación y las habilidades de enseñanza de los maestros.