Ketamine beyond anesthesia: Antidepressant effects and abuse potential

Prozac exposure during adolescence increases pain sensitivity in adulthood

Psychotropic medication prescription rates, particularly of the selective serotonin reuptake inhibitor fluoxetine (FLX; Prozac), are on the rise in the female adolescent population. Particularly, because FLX is dispensed for the treatment of numerous mood-related illnesses, premenstrual dysphoric disorder, as well as for pain management. Although FLX is deemed efficacious shortly post/during chronic treatment, the potential for unexpected long-term side effects has not been thoroughly assessed. For this reason, in this brief report, we examined whether exposure to FLX, during adolescence, influences thermal nociception in adulthood. To do this, postnatal day (PD)-35 female C57BL/6 mice were exposed to FLX (250 mg/L in drinking water) for 15 consecutive days (PD35-49). Once mice reached adulthood (PD70) they were evaluated on thermal nociception sensitivity adopting the hot plate test. We found that adult mice with FLX history displayed reductions in body weight (g) as well as reduced time (s) to display hindpaw-licking behavior, when compared to controls. These outcomes suggest that juvenile FLX exposure induces thermal hyperalgesia in adulthood, thus questioning the safety of antidepressant exposure during early-life stages of development in the female population.

Increased sensitivity to psychomotor effects of ketamine enantiomers in the Wistar-Kyoto depression model

Ketamine, a fast-acting antidepressant, is a racemic mixture, composed of equal amounts of R- and S-ketamine. Preclinical studies are comparing them to better understand their role in therapeutic and undesirable effects. An important research gap is that studies do not use long clinically relevant protocols to compare the desired and undesired effects of ketamine enantiomers in modeled and control animals. In our preclinical study, we explored the behavioral effects of R- and S-ketamine at 10 mg/kg in clinically relevant treatment protocol using Wistar-Kyoto rats as a depression model and Wistar rats as a control. Undesirable psychomotor effects were evaluated with locomotor stimulation and sensitization, ataxia, and stereotypy. Persistent effects associated with therapeutic outcomes were evaluated by measuring working memory, anxiety, and behavioral despair. We found that S-ketamine has stronger acute psychomotor effects compared to R-ketamine and that Wistar-Kyoto rats are more sensitive to these effects compared to Wistar rats. After repeated treatment, sensitization to locomotor stimulating effects, and tolerance to ataxic effects of S-ketamine develops. We found no persistent changes due to ketamine treatments. Taken together, our results may indicate that depressed patients would be more prone to negative side effects of ketamine, compared to healthy controls. However, after repeated treatment, tolerance to side effects may develop and make the treatment more tolerable. Future preclinical and clinical studies are needed to address neurobiological mechanisms and clinical relevance of higher sensitivity to the psychomotor effects of ketamine, and the development of tolerance to psychomotor effects of ketamine in depressed individuals.

PROPHYLACTIC KETAMINE: CURRENT KNOWLEDGE AND FUTURE DIRECTIONS

The prevalence of stress-induced disorders, including depression, anxiety, PTSD, and postpartum depression, has been increasing, while current treatment approaches are limited. As a result, researchers are exploring alternative treatments that include ketamine as a prophylactic against these disorders. This review provides an overview of the current knowledge on the use of ketamine as a prophylactic for stress-induced disorders, including preclinical and clinical findings on R,S-ketamine, as well as (2R,6R)- and (2S,6S)-hydroxynorketamine. We also explore the potential underlying mechanisms involved in preventing these disorders, including the brain regions/circuits, as well as glutamatergic, dopaminergic, serotonergic, and inflammatory processes known to be involved, as evidenced by studies with ketamine and its metabolites. Additionally, we highlight the limitations and risks associated with ketamine use, such as age- and sex-specific efficacy, potential long-term and adverse effects, and legal and ethical considerations. Finally, we discuss future research directions, including the implications for clinical practice, integrating ketamine into current treatment approaches, and potential advancements in ketamine-based therapies. Overall, the literature emphasizes the importance of continuing research to better understand the potential benefits and risks of ketamine as a prophylactic for stress-induced disorders.

Characterizing the therapeutical use of ketamine for adolescent rats of both sexes: Antidepressant-like efficacy and safety profile

While ketamine was approved for treatment-resistant depression in adult patients, its efficacy and safety profile for adolescence still requires further characterization. In this context, prior preclinical studies have shown that sub-anesthetic doses of ketamine during adolescence exert antidepressant-like effects in rodents in a dose- and sex-dependent manner. However, additional studies evaluating the short- and long-term safety profile of ketamine at the doses necessary to induce antidepressant-like effects are needed. The present study aimed at validating the dose- and sex-dependent antidepressant-like responses of adolescent ketamine while evaluated its safety profile in rats of both sexes. To do so, ketamine was administered (1, 5 or 10 mg/kg; vs. vehicle; 1 vs. 7 days) during adolescence in naïve or early-life stressed (i.e., maternal deprivation) rats of both sexes. Antidepressant-like responses were scored in the forced-swim or novelty-suppressed feeding tests, and safety was evaluated by measuring psychomotor- and reinforcing-like responses induced by ketamine. In addition, long-term safety was assessed in adulthood through cognitive performance, or addiction liability (induced by ketamine re-exposure in rats treated with ketamine in adolescence). The main results validated the potential use of ketamine as an antidepressant for adolescence, but at different dose ranges for each sex. However, some safety concerns emerged in adolescent female rats (i.e., signs of sensitization at the dose used as antidepressant) or adult male rats (i.e., addiction liability when re-exposed to ketamine in adulthood), suggesting that caution and further research are needed before ketamine could be safely used in the clinic as an antidepressant for adolescents.

Associations between psychedelic use and cannabis use disorder in a nationally representative sample

BACKGROUND

Cannabis Use Disorder (CUD) is an increasingly prevalent disorder affecting millions of Americans each year. Psychedelic compounds have recently been investigated for their therapeutic potential in treating substance use disorders, yet no prior work has examined the relationship between naturalistic use of specific psychedelic compounds and rates of disordered cannabis use.

METHODS

Using a nationally representative sample of U.S adults from the National Survey on Drug Use and Health (2015 - 2019, 2021 - 2022), we used a series of survey-weighted multivariable logistic regressions to examine the association between past year disordered cannabis use and use of several classic psychedelics (i.e., LSD, psilocybin, mescaline, peyote, DMT) and non-classic psychedelics (i.e., ketamine, MDMA).

RESULTS

lifetime psilocybin use as well as past year LSD use were both associated with higher rates of past year DSM-5 CUD (adjusted risk ratio [aRR] range: 1.89 - 2.04), controlling for a variety of sociodemographic factors. These associations remained significant in the case of moderate-to-severe past year CUD (aRR range: 1.65 - 2.07). Past year LSD use also predicted three of eleven CUD symptoms among individuals with past year cannabis use (aRR range: 1.45 - 1.73).

DISCUSSION

Despite preliminary findings regarding the potential for psychedelic substances to help treat substance use disorders, our findings suggest a relationship between psychedelic use and disordered cannabis use, suggesting that certain psychedelic substances used in certain naturalistic settings are an indicator of greater risk of maladaptive cannabis use. Future directions to further disentangle these relationships are discussed.

A refined formula derived from Jiawei-Xiaoyao pill exerts rapid antidepressant-like effects in LPS-induced depression by reducing neuroinflammation and restoring neuroplasticity signaling

ETHNOPHARMACOLOGICAL RELEVANCE

Jiawei-Xiaoyao Pill (JWX), a classic formula in traditional Chinese medicine, is derived from Xiaoyao Pill by adding significant amounts of Gardeniae Fructus (GF) and Moutan Cortex (MC). It is frequently used for the treatment of depression. JWX has been demonstrated to uniquely elicit rapid antidepressant-like effects within the prescribed dosage range. To date, GF has been shown to have rapid antidepressant-like effects, but a much higher dose is required than its proportion in JWX. It is assumed that the synergism of GF with a minimum number of other herbs in JWX serves as a refined formula that exerts these rapid antidepressant-like effects. Identification of a refined formula is important for prioritizing the herbs and ingredients to optimize the quality control of JWX. However, such a refined formula for JWX has not been identified yet.

AIM OF THE STUDY

Here we aimed to identify a refined formula derived from JWX for optimized rapid antidepressant-like effects. Since the neuroinflammation mechanism involving in depression treatment has not been previously investigated for JWX, we tested the mechanism for both JWX and the refined formula.

MATERIALS AND METHODS

Individual herbs (MC; ASR, Angelica Sinensis Radix; Bupleuri Radix; Paeonia Radix Alba) that show antidepressant-like responses were mixed with GF at the proportional dosage in JWX to identify the refined formula. Rapid antidepressant-like effects were assessed by using NSF (Novelty Suppressed Feeding Test) and other behavioral tests following a single administration. The identified formula was further tested in a lipopolysaccharide (LPS)-induced depressive model, and the molecular signaling mechanisms were investigated using Western blot analysis, immunofluorescence, and pharmacological inhibition of mTOR signaling. Scopolamine (Scop) was used as a positive control for induction of rapid antidepressant effects.

RESULTS

A combination of GF, MC and ASR (GMA) at their dosages proportional to JWX induced behavioral signs of rapid antidepressant-like responses in both normal and LPS-treated mice, with the antidepressant-like effects sustained for 5 d. Similar to JWX or Scop, GMA rapidly reduced the neuroinflammation signaling of Iba-1-NF-кB, enhanced neuroplasticity signaling of CaMKII-mTOR-BDNF, and attenuated the upregulated expressions of the NMDAR sub-units GluN1 and GluN2B in the hippocampus of LPS-treated mice. GMA, JWX and Scop rapidly restored the number of BDNF-positive cells reduced by LPS treatment in the CA3 region of the hippocampus. Furthermore, rapamycin, a selective inhibitor of mTOR, blunted the rapid antidepressant-like effects and hippocampal BDNF signaling upregulation by GMA.

CONCLUSION

GMA may serve as a refined formula from JWX, capable of inducing rapid antidepressant-like effects. In the LPS-induced depression model, the effects of GMA were mediated via rapidly alleviating neuroinflammation and enhancing neuroplasticity.

Beyond the serotonin deficit hypothesis: communicating a neuroplasticity framework of major depressive disorder

The serotonin deficit hypothesis explanation for major depressive disorder (MDD) has persisted among clinicians and the general public alike despite insufficient supporting evidence. To combat rising mental health crises and eroding public trust in science and medicine, researchers and clinicians must be able to communicate to patients and the public an updated framework of MDD: one that is (1) accessible to a general audience, (2) accurately integrates current evidence about the efficacy of conventional serotonergic antidepressants with broader and deeper understandings of pathophysiology and treatment, and (3) capable of accommodating new evidence. In this article, we summarize a framework for the pathophysiology and treatment of MDD that is informed by clinical and preclinical research in psychiatry and neuroscience. First, we discuss how MDD can be understood as inflexibility in cognitive and emotional brain circuits that involves a persistent negativity bias. Second, we discuss how effective treatments for MDD enhance mechanisms of neuroplasticity-including via serotonergic interventions-to restore synaptic, network, and behavioral function in ways that facilitate adaptive cognitive and emotional processing. These treatments include typical monoaminergic antidepressants, novel antidepressants like ketamine and psychedelics, and psychotherapy and neuromodulation techniques. At the end of the article, we discuss this framework from the perspective of effective science communication and provide useful language and metaphors for researchers, clinicians, and other professionals discussing MDD with a general or patient audience.

Behavioral sensitization and tolerance induced by repeated treatment with ketamine enantiomers in male Wistar rats

Ketamine has gained significant attention as a fast-acting antidepressant. However, ketamine is also associated with undesirable side effects. In our preclinical study, we explored the behavioral effects of ketamine enantiomers at subanesthetic doses. During repeated intermittent treatment, we examined locomotor stimulation and sensitization, ataxia, and expression of natural behaviors (grooming and rearing). Male Wistar rats were subcutaneously treated repeatedly with either 5 mg/kg of R-ketamine or S-ketamine, 15 mg/kg of R-ketamine, S-ketamine or racemic ketamine, 30 mg/kg of racemic ketamine or saline every third day for three weeks (seven treatments overall). After the first treatment, only 15 mg/kg of S-ketamine induced locomotor stimulation, and both 15 mg/kg of S-ketamine and 30 mg/kg of racemic ketamine induced ataxia. Upon repeated administration, doses of 15 mg/kg of R-ketamine, S-ketamine, and racemic ketamine, as well as 30 mg/kg of racemic ketamine, stimulated locomotion. 15 mg/kg of R-ketamine, S-ketamine, and racemic ketamine additionally resulted in locomotor sensitization. The last administration of 15 mg/kg of S-ketamine, 15 mg/kg of racemic ketamine, and 30 mg/kg of racemic ketamine resulted in ataxia. In the case of 15 mg/kg of S-ketamine, ataxic effects were significantly weaker in comparison to the effects from the first administration, indicating tolerance. Natural behaviors were attenuated after 5 and 15 mg/kg of S-ketamine and 15 and 30 mg/kg of racemic ketamine. Neither of the R-ketamine doses produced such an effect. We conclude that S-ketamine has a stronger behavioral effect than R-ketamine.

Temporal dynamics of BDNF signaling recruitment in the rat prefrontal cortex and hippocampus following a single infusion of a translational dose of ketamine

Despite several decades of investigations, the mechanisms underlying the rapid action of ketamine as antidepressant are still far from being completely understood. Several studies indicated Brain-Derived Neurotrophic Factor (BDNF) as critical for the fast antidepressant action of ketamine, due to its contribution in early and rapid synaptic adaptations. However, previous reports have been essentially based on ketamine dosing modes that differ from the clinical route of administration (slow intravenous infusion). In this report, we investigated the effects of a ketamine dosing mode in male Sprague-Dawley rats showed to be translational to the clinically effective mode in patients. We focused on the first 24 h after infusion to finely dissect potential differences in the contribution of BDNF signaling pathway in prefrontal cortex and hippocampus, two brain regions involved in the antidepressant effects of ketamine. Our data show that the slow ketamine infusion activates the BDNF-mTOR-S6 pathway in prefrontal cortex as early as 2 h and remains on until at least 6 h after the infusion. At the 12 h timepoint, this pathway is turned off in prefrontal cortex while it becomes activated in hippocampus. Interestingly, this pathway appears to be activated in both brain regions at 24 h through a BDNF-independent mechanism adding complexity to the early action of ketamine. We have captured previously unknown dynamics of the early effects of ketamine showing rapid activation/deactivation of BDNF and its downstream signaling in prefrontal cortex and hippocampus, following a precise temporal profile.

Sex-Specific Alterations in Spatial Memory and Hippocampal AKT-mTOR Signaling in Adult Mice Pre-exposed to Ketamine and/or Psychological Stress During Adolescence

Background

Ketamine (KET) is administered to manage major depression in adolescent patients. However, the long-term effects of juvenile KET exposure on memory-related tasks have not been thoroughly assessed. We examined whether exposure to KET, psychological stress, or both results in long-lasting alterations in spatial memory in C57BL/6 mice. Furthermore, we evaluated how KET and/or psychological stress history influenced hippocampal protein kinase B-mechanistic target of rapamycin (AKT-mTOR)-related signaling.

Methods

On postnatal day 35, male and female mice underwent vicarious defeat stress (VDS), a form of psychological stress that reduces sociability in both sexes, with or without KET exposure (20 mg/kg/day, postnatal days 35-44). In adulthood (postnatal day 70), mice were assessed for spatial memory performance on a water maze task or euthanized for hippocampal tissue collection.

Results

Juvenile pre-exposure to KET or VDS individually increased the latency (seconds) to locate the escape platform in adult male, but not female, mice. However, juvenile history of concomitant KET and VDS prevented memory impairment. Furthermore, individual KET or VDS pre-exposure, unlike their combined history, decreased hippocampal AKT-mTOR signaling in adult male mice. Conversely, KET pre-exposure alone increased AKT-mTOR in the hippocampus of adult female mice. Lastly, rapamycin-induced decreases of mTOR in naïve adult female mice induced spatial memory retrieval deficits, mimicking adult male mice with a history of exposure to VDS or KET.

Conclusions

Our preclinical model shows how KET treatment for the management of adolescent psychological stress-induced sequelae does not impair spatial memory later in life. However, juvenile recreational KET misuse, like psychological stress history, results in long-term spatial memory deficits and hippocampal AKT-mTOR signaling changes in a sex-specific manner.

Comparative efficacy and acceptability of non-pharmacological interventions for depression among people living with HIV: A protocol for a systematic review and network meta-analysis

BACKGROUND

Improving depression is critical to the success of HIV treatment. Concerns about the adverse effects of pharmacotherapy have led to non-pharmacological treatments for depression in people living with HIV (PLWH) becoming increasingly popular. However, the most effective and acceptable non-pharmacological treatments for depression in PLWH have not yet been determined. This protocol for a systematic review and network meta-analysis aims to compare and rank all available non-pharmacological treatments for depression in PLWH in the global network of countries as well as in the network of low-income and middle-income countries (LMICs) only.

METHODS

We will include all randomized controlled trials of any non-pharmacological treatments for depression in PLWH. The primary outcomes will consider efficacy (the overall mean change scores in depression) and acceptability (all-cause discontinuation). Published and unpublished studies will be systematically searched through the relevant databases (PubMed, EMBASE, Cochrane Central Register of Controlled Trials (CENTRAL), PsycINFO, CINAHL, ProQuest, and OpenGrey), international trial registers, and websites. There is no restriction by language and publication year. All study selection, quality evaluation, and data extraction will be independently conducted by at least two investigators. We will perform a random-effects network meta-analysis to synthesize all available evidence for each outcome and obtain a comprehensive ranking of all treatments for the global network of countries as well as for the network of LMICs only. We will employ validated global and local approaches to evaluate inconsistency. We will use OpenBUGS (version 3.2.3) software to fit our model within a Bayesian framework. We will evaluate the strength of evidence using the Confidence in Network Meta-Analysis (CINeMA) tool, a web application based on the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) system.

ETHICS AND DISSEMINATION

This study will use secondary data and therefore does not require ethical approval. The results of this study will be disseminated through peer-reviewed publication.

TRIAL REGISTRATION

PROSPERO registration number: CRD42021244230.

Substance Use and the Nervous System

OBJECTIVE

This article informs and updates the practicing neurologist on the current landscape of known neurologic injuries linked to the use of illicit drugs, focusing on emerging agents.

LATEST DEVELOPMENTS

Synthetic opioids such as fentanyl and similar derivatives have exploded in prevalence, becoming the leading cause of overdose fatalities. The higher potency of synthetic opioids compared with semisynthetic and nonsynthetic opiates poses an increased risk for unintentional overdose when found as an adulterant in other illicit drug supplies such as heroin. Conversely, misinformation about the risk of symptomatic exposure to fentanyl through casual contact with the skin and ambient air has led to misdirected fear and stigma that threatens to impede valid harm-reduction measures for fentanyl users at risk of actual overdose. Finally, during the COVID-19 pandemic, overdose rates and deaths continued to climb, especially among those who use opioids and methamphetamine.

ESSENTIAL POINTS

A variety of potential neurologic effects and injuries can occur with illicit drug use owing to the diverse properties and mechanisms of action of the various classes. Many high-risk agents are not detected on standard drug screens, including so-called designer drugs, and the practicing neurologist is best served by recognizing the clinical features of the traditional toxidrome and other potential idiosyncratic effects of various illicit agents.

Design of fast-onset antidepressant by dissociating SERT from nNOS in the DRN

Major depressive disorder (MDD) is one of the most common mental disorders. We designed a fast-onset antidepressant that works by disrupting the interaction between the serotonin transporter (SERT) and neuronal nitric oxide synthase (nNOS) in the dorsal raphe nucleus (DRN). Chronic unpredictable mild stress (CMS) selectively increased the SERT-nNOS complex in the DRN in mice. Augmentation of SERT-nNOS interactions in the DRN caused a depression-like phenotype and accounted for the CMS-induced depressive behaviors. Disrupting the SERT-nNOS interaction produced a fast-onset antidepressant effect by enhancing serotonin signaling in forebrain circuits. We discovered a small-molecule compound, ZZL-7, that elicited an antidepressant effect 2 hours after treatment without undesirable side effects. This compound, or analogous reagents, may serve as a new, rapidly acting treatment for MDD.

Adolescent fluoxetine exposure increases ERK-related signaling within the prefrontal cortex of adult male Sprague-Dawley rats

There has been a disproportionate increase in fluoxetine (FLX) prescription rates within the juvenile population. Thus, we evaluated how adolescent FLX exposure alters expression/phosphorylation of proteins from the extracellular signal regulated kinase (ERK)-1/2 cascade within the adult prefrontal cortex (PFC). Male Sprague-Dawley rats were exposed to FLX (20 mg/kg) for 15 consecutive days (postnatal-day [PD] 35-49). At PD70 (adulthood), we examined protein markers for ERK1/2, ribosomal S6 kinase (RSK), and mammalian target of rapamycin (mTOR). FLX-pretreatment decreased body weight, while increasing PFC phosphorylation of ERK1/2 and RSK, as well as total mTOR protein expression in adulthood. We provide first-line evidence that juvenile FLX-pretreatment induces long-term decreases in body weight-gain, along with neurobiological changes in the adult PFC - highlighting that early-life antidepressant exposure increases ERK-related signaling markers in later life.

Ketamine enhances novel object recognition memory reconsolidation via the BDNF/TrkB pathway in mice

In addition to the antidepressant properties of ketamine at subanesthetic doses, studies have revealed ketamine's influence on memory acquisition, consolidation, and reconsolidation. The effects of acute low-dose ketamine administration on conditioned memory have been investigated extensively in rodents through conditioned fear memory and morphine-induced conditioned place preference. In contrast to conditioned memory, the novel object recognition (NOR) task assesses the natural format of memory by exploiting the rodents' natural preference for novelty. Acute low-dose ketamine administration impairs NOR acquisition and consolidation, but its influence on reconsolidation remains unclear. We investigated the issue as well as the involvement of BDNF/TrkB pathway in this process by administering ketamine (i.p., 10 mg/kg, immediately or 6 h after reactivation, or without reactivation) and ANA-12 (i.p., 0.5 mg/kg, 5 min after ketamine/vehicle administration). ANA-12 is a selective antagonist for the BDNF TrkB receptor. Ketamine administration, immediately after (rather than without) reactivation, significantly increased the NOR preference index, thus suggesting an enhanced memory reconsolidation rather than consolidation. Ketamine exerted no significant effect when administered 6 h after reactivation, thereby suggesting 6 h to be an effective time window. ANA-12 administration significantly reduced the ketamine-induced NOR preference index increase, thus suggesting that the blockage of ketamine improves NOR reconsolidation. However, this blockage had no significant effect on the ketamine-induced hippocampal BDNF level increase. In conclusion, acute low-dose ketamine administration improves NOR memory reconsolidation by increasing hippocampal BDNF levels and subsequent BDNF binding to the TrkB receptor.

Autophagy Induction and Accumulation of Phosphorylated Tau in the Hippocampus and Prefrontal Cortex of Adult C57BL/6 Mice Subjected to Adolescent Fluoxetine Treatment

BACKGROUND

Fluoxetine (FLX) represents the antidepressant of choice for the management of pediatric mood-related illnesses. Accumulating preclinical evidence suggests that ontogenic FLX exposure leads to deregulated affect-related phenotypes in adulthood. Mood-related symptomatology constitutes a risk-factor for various neurological disorders, including Alzheimer's disease (AD), making it possible for juvenile FLX history to exacerbate the development of neurodegenerative diseases.

OBJECTIVE

Because AD is characterized by the pathological accumulation of hyperphosphorylated tau, which can result from impaired function of protein degradation pathways, such as autophagy and the ubiquitin-proteasome system (UPS), we evaluated the long-term effects of adolescent FLX exposure on these pathways, using mice as a model system.

METHODS

We subjected C57BL/6 adolescent male mice to FLX (20 mg/kg/day) from postnatal day (PD) 35 to PD49. Twenty-one days after the last FLX injection (i.e., adulthood; PD70), mice were euthanized and, using immunoblotting analysis, we evaluated protein markers of autophagy (Beclin-1, LC3-II, p62) and the UPS (K48-pUb), as well as AD-associated forms of phosphorylated tau, within the hippocampus and prefrontal cortex.

RESULTS

Juvenile FLX pre-exposure mediated long-term changes in the expression of protein markers (increased LC3-II and decreased p62) that is consistent with autophagy activation, particularly in the prefrontal cortex. Furthermore, FLX history induced persistent accumulation of AD-associated variants of tau in both the hippocampus and prefrontal cortexConclusion: Adolescent FLX treatment may have enduring effects in the neuronal protein degradation machinery, which could adversely influence clearance of abnormal proteins, potentially predisposing individuals to developing AD in later life.