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5-APB

5-(2-Aminopropyl) (5-APB) is a synthetic derivative classified as a novel psychoactive substance, functioning primarily as a releasing for , , and norepinephrine to elicit entactogenic, , and entheogenic effects structurally and pharmacologically akin to and . Originally synthesized in the 1990s by at during investigations into non-neurotoxic analogs and selective 5-HT2A agonists, 5-APB entered recreational markets around 2010 as a research chemical often sold under the "benzofury" moniker, prompting regulatory scrutiny due to its abuse potential and reports of acute toxicity. Empirical pharmacological assessments reveal dose-dependent monoamine release with pronounced serotonergic activity, alongside vasoconstrictive effects mediated by 5-HT2 receptors, though in vitro hepatocyte models demonstrate elevated hepatotoxicity relative to its 6-APB positional isomer.

History

Emergence and early detection

5-APB, chemically known as 5-(2-aminopropyl), was initially synthesized in the early as part of pharmacological research exploring structural analogs of amphetamines with potential reduced . The compound's preparation was formally documented in by 2000, within studies aimed at developing selective serotonin releasers. However, it remained confined to academic and preclinical contexts until its commercial introduction as a . The emergence of 5-APB in the recreational market occurred in , when it began appearing online as a so-called "legal high" under monikers like "benzo fury," positioned as an entactogenic alternative to substances such as . This coincided with the broader rise of derivatives as novel psychoactive substances (NPS), with 5-APB among the first in its class to gain traction among users seeking and empathogenic effects. Sales were primarily through vendors, often evading initial regulatory scrutiny due to its novel status. Early detection efforts identified 5-APB through European drug monitoring networks that same year, with the European Monitoring Centre for Drugs and Drug Addiction (EMCDDA) recording its first seizures and analytical confirmations in member states. Forensic laboratories employed techniques such as gas chromatography-mass spectrometry (GC-MS) to differentiate it from positional isomers like , prompted by reports of acute intoxications and polydrug contexts. By 2011, EMCDDA-Europol assessments highlighted its risks, leading to targeted bans in jurisdictions including the . These detections underscored challenges in NPS surveillance, as rapid online dissemination outpaced traditional scheduling mechanisms.

Chemistry

Structure and physical properties

5-(2-Aminopropyl), commonly known as 5-APB, is a synthetic derivative characterized by a ring system substituted at the 5-position with a 2-aminopropyl , conferring a phenethylamine-like scaffold. The molecular formula is C₁₁H₁₃NO, with a molecular weight of 175.23 g/mol. This compound possesses a chiral center at the alpha carbon of the propyl chain, typically existing as a racemic mixture in synthesized forms. Detailed physical properties, including , , and in various solvents, remain sparsely reported in peer-reviewed or sources, reflecting its status as a with limited commercial or pharmaceutical development. The form is an oil or low-melting solid, while the manifests as a crystalline solid, facilitating handling and in settings. data indicate moderate for the salt form, though quantitative values are not standardized across references.

Synthesis methods

5-APB, or 5-(2-aminopropyl), is synthesized through multi-step procedures detailed in peer-reviewed forensic and pharmacological literature, typically yielding the salt for analytical purposes. The initial was reported in 2000 as part of efforts to develop selective serotonin 5-HT2C receptor ligands, involving construction of the benzofuran ring system substituted at the 5-position with a 2-aminopropyl chain. Later characterizations for isomer differentiation employed similar routes, confirming structures via NMR and after preparation of 4-, 5-, 6-, and 7-APB positional analogs. A representative approach begins with a protected precursor, such as a methoxy-substituted phenyl compound, undergoing directed (e.g., via Rieche formylation using dichloromethyl methyl ether and a acid like SnCl4) to introduce an group ortho or para to the directing . This then participates in a nitroaldol () or Knoevenagel-type condensation with , catalyzed by base like , forming a β-nitroalkene intermediate. The is reduced (e.g., with NaBH4), followed by nitro group to the primary amine (e.g., using and diisopropylethylamine or catalytic ), and finally, deprotection and cyclization to close the ring if not pre-formed. Yields for analogous sequences range from 40-90% per step, with overall efficiency around 10-20% due to purification losses. These methods prioritize to ensure the 5-position substitution, distinguishing 5-APB from more toxic like , which may derive from controlled precursors such as 3-methoxyamphetamine. Clandestine variations reportedly adapt non-controlled starting materials like derivatives, but published routes emphasize controlled laboratory conditions to avoid impurities observed in seized samples. All claims of efficacy and purity require verification through spectroscopic confirmation, as isomer mixtures can arise from incomplete .

Detection in biological and forensic samples

5-APB can be detected in biological matrices such as urine, plasma, blood, and postmortem tissues through a combination of screening and confirmatory methods, with liquid chromatography-mass spectrometry (LC-MS) techniques being predominant due to their sensitivity and specificity for polar analytes like this benzofuran derivative. Initial screening often employs enzyme-linked immunosorbent assay (ELISA) targeting amphetamines, which exhibits cross-reactivity with 5-APB, prompting further analysis; for instance, in a postmortem case, blood screened positive for methamphetamine via ELISA before confirmation. Confirmatory identification typically uses gas chromatography-mass spectrometry (GC-MS) or LC-MS/MS, often following solid-phase extraction or liquid-liquid extraction to isolate the compound and its metabolites from complex matrices. Key metabolites aiding detection include 5-(2-aminopropyl)benzofuran-2-carboxylic acid and hydroxy-5-APB, identified in rat urine and human plasma via LC-high-resolution MS^n after enzymatic and ; these I metabolites extend the detection window beyond the parent compound, which undergoes rapid metabolism. In authentic human urine following 5-APB-related ingestion (often confounded with its N-methyl analog ), both parent drug and metabolites were verifiable by GC-MS after derivatization or LC-MS without, highlighting the utility of untargeted screening for novel psychoactive substances (NPS). Detection limits in validated LC-MS/MS methods for blood reach 1-5 ng/mL for 5-APB, enabling quantification in low-concentration forensic scenarios. In , particularly postmortem analyses, 5-APB has been quantified in peripheral at concentrations associated with fatality, such as 0.56 μg/g in femoral from a 2014 intoxication case confirmed by GC-MS and LC-MS/MS after initial alkaline . Another report documented 860 ng/mL in postmortem via LC-MS, deemed causative in death amid poly-drug use. Ultra-high-performance LC-quadrupole time-of-flight MS (UHPLC-QTOF-MS) has identified 5-APB in from overdose cases, distinguishing it from isomers like through accurate mass and fragmentation patterns. These methods underscore the need for targeted NPS panels in routine , as standard assays alone risk under-detection or misattribution.

Pharmacology

Mechanism of action

5-APB primarily exerts its effects by acting as a substrate-type releaser at monoamine transporters, promoting the efflux of , , and norepinephrine into the synaptic cleft. It interacts with the () with an EC50 of 19 nM for release, the () with an EC50 of 21 nM, and the () with an EC50 of 31 nM in rat synaptosomes, demonstrating higher potency than at and . This reversal of transporter function inhibits and elevates extracellular monoamine levels, as evidenced by dose-dependent increases in (up to 6.7-fold) and (up to 17.7-fold) in rat via microdialysis following systemic administration. In , 5-APB slows and induces reverse transport at , particularly at higher concentrations, mimicking amphetamine-like mechanisms. Uptake inhibition potencies align with its releasing profile, with IC50 values of 0.29 μM at , 0.16 μM at , and 6.1 μM at , yielding a DAT:SERT ratio of 0.05 indicative of a serotonin-dominant but balanced monoamine action similar to . These interactions underlie its stimulant and entactogenic properties, contributing to behavioral activation observed in models. Additionally, 5-APB displays activity at serotonin receptors, functioning as a at 5-HT2A (EC50 6.3 μM, 54% ; Ki 0.84 μM) and 5-HT2B (EC50 0.28 μM, 61% ), which may modulate vasoconstrictive responses in vascular and gastrointestinal tissues. This receptor , observed in models, complements its transporter-mediated effects but occurs at lower potencies relative to monoamine release.

Pharmacokinetics and metabolism

Limited pharmacokinetic data exist for 5-APB, a analogue of , due to its status as a novel psychoactive substance with primarily recreational use and few controlled studies. In rat models, intravenous administration at doses of 0.3–1.0 mg/kg produces rapid elevations in extracellular (up to 6.7-fold above baseline) and serotonin (up to 17.7-fold), with peak effects occurring shortly post-injection and serotonin levels remaining substantially elevated (11.3-fold) at 120 minutes, indicating a duration of action of at least 2 hours. Metabolism of 5-APB occurs primarily via hepatic I processes, including aromatic , side-chain oxidation, and , as demonstrated in rat liver microsomes, rat urine following administration, and hepatocytes. Identified metabolites include N-acetyl derivatives, hydroxylated forms on the or propyl chain, and carboxylic acids resulting from beta-oxidation of the ; a prominent metabolite is 2-(5-(2-aminopropyl)-2-hydroxyphenyl)acetic acid, formed through at the position relative to the acetic acid (post-), followed by reduction and oxidation steps, potentially contributing to bioactivation and toxicity. 5-APB acts as a moderate inhibitor of 2D6 (), with an IC50 of 0.86 μM, which may influence its own metabolism and interactions with other substrates. Elimination pathways mirror those of structurally similar amphetamines, predominantly renal of metabolites in , though specific or figures for 5-APB remain unreported; its N-methyl , , exhibits first-order kinetics with a of approximately 6.5 hours in a reported human case, suggesting comparable elimination for 5-APB. Post-mortem analyses in fatalities have detected 5-APB in , supporting systemic and persistence sufficient for detection after acute use.

Effects

Subjective psychological effects

Users report subjective psychological effects from 5-APB including , enhanced , and increased sociability, which are described as similar to those elicited by or . These entactogenic qualities are attributed to its profile as a serotonin, , and norepinephrine releaser, though human data remain limited to self-reports due to the absence of controlled clinical studies. Mild hallucinogenic components, such as visual distortions or enhanced perceptual acuity, have also been noted by consumers, distinguishing it somewhat from pure stimulants. Negative psychological effects can include anxiety, , and , particularly with higher doses or in unfavorable settings, as reported in case descriptions and user accounts. Some individuals experience or restlessness persisting into the comedown phase, potentially exacerbating disturbances. These adverse reactions underscore variability influenced by dose (typically 75-150 mg orally), , with no established therapeutic context to validate consistency. Overall, while entactogenic benefits predominate in , the potential for acute psychological distress highlights risks absent rigorous empirical validation.

Physiological effects

5-APB, as a monoamine releaser and , induces sympathomimetic effects including and elevated through potent inhibition of the (NET). These cardiovascular responses stem from increased synaptic norepinephrine levels, mirroring effects observed with amphetamine-like stimulants. User reports and case data consistently describe , agitation, and , with body temperature elevations linked to and activation. In acute intoxication scenarios, physiological manifestations extend to severe hemodynamic instability, such as refractory to vasopressors and recurrent , as documented in overdose cases requiring intensive care. and diaphoresis are frequently reported, contributing to risks during prolonged use. While human clinical trials are absent, and animal data support these outcomes via 5-APB's affinity for trace amine-associated receptor 1 () and monoamine transporters, potentiating peripheral sympathetic outflow. Adverse events like and anxiety reflect sustained central and autonomic , persisting beyond peak effects.

Toxicity and Risks

Acute toxicity and adverse reactions

Acute toxicity data for 5-APB in humans remains limited, primarily derived from isolated case reports of recreational use, with preclinical studies indicating sympathomimetic and serotonergic effects that parallel those of and amphetamines, including and potential . Common acute adverse reactions reported in users include , , , , , and sympathomimetic stimulation such as diaphoresis and . More severe manifestations encompass , , hallucinations, disorientation, and convulsions, akin to those observed with structurally related benzofurans like . Case reports highlight risks of life-threatening even without polydrug involvement. In a 2014 fatality involving a 20-year-old male who consumed 5-APB at a , prodromal symptoms included episodic freezing, involuntary reaching, clenched teeth (), dyspnea, incoherent speech, and frothy bloody oral secretions, progressing to unresponsiveness, , and apnea; postmortem analysis revealed peripheral blood 5-APB concentration of 2.5 mg/L, with central blood at 2.9 mg/L, liver at 16 mg/kg, and urine at 23 mg/L, attributing solely to acute 5-APB despite low concurrent (0.02% w/v). A 2019 case of a 25-year-old female with prior use presented with malaise, tonic-clonic seizures, cardiorespiratory arrest, hemodynamic instability, and recurrent after presumed oral ingestion, culminating in multi-organ failure and ; toxicology confirmed blood 5-APB at 1.429 mg/mL alongside 5-APDB (0.111 mg/mL), with no other substances detected. These incidents underscore dose-dependent risks, including seizures, arrhythmias, and , potentially exacerbated by 5-APB's inhibition of monoamine transporters and interactions at and serotonin receptors, though exact lethal thresholds remain undefined due to sparse pharmacokinetic data in overdose scenarios. Preclinical evidence suggests greater acute for 5-APB compared to its isomer, involving production and mitochondrial dysfunction, which may contribute to in severe exposures. Supportive care, such as benzodiazepines for agitation and cooling for observed in related toxicities, has shown transient efficacy in non-fatal cases, but outcomes vary with rapid intervention.

Potential for dependence and long-term harm

Due to the novelty of 5-APB as a recreational substance, empirical data on its potential for dependence remain limited, with no large-scale clinical studies documenting rates or syndromes in humans. Preclinical assessments indicate liability through mechanisms such as increased synaptosomal release, comparable to other monoamine releasers, which could foster reinforcing effects and via and enhanced sociability. However, unlike classical stimulants, 5-APB lacks strong evidence of , with user reports and analogous entactogens like suggesting develops primarily to subjective effects rather than compulsive redosing patterns. Long-term harm from repeated 5-APB use is poorly characterized, but pharmacological profiling reveals risks tied to its potent agonism at the serotonin 5-HT2B receptor, which has been linked to cardiovascular complications such as valvulopathy in chronic drug exposure. In vitro studies demonstrate , with 5-APB exhibiting greater in human liver cells than its , potentially via and mitochondrial dysfunction, though human case data are absent. Neurotoxic potential remains speculative, inferred from serotonin depletion akin to but unsubstantiated by direct assays; no verified long-term cognitive or psychiatric sequelae have been reported, underscoring the need for caution given the class's overall data scarcity.

Overdose cases and fatalities

A fatal intoxication case attributed solely to 5-APB was reported in 2014, involving a man found unresponsive after presumed ingestion; postmortem analysis revealed peripheral blood concentrations of 860 ng/mL 5-APB, with no other substances detected, and the was certified as acute 5-APB in an accidental manner. Another fatality occurred in involving a 25-year-old man, with postmortem femoral blood 5-APB concentration of 860 ng/mL deemed causative, as confirmed by excluding other contributors. A third documented overdose death in 2018 involved a 25-year-old who collapsed after recreational use, testing positive only for 5-APB and its analog 5-APDB; she exhibited multi-organ failure and hemodynamic shock, succumbing hours after emergency admission despite intervention. These cases highlight 5-APB's potential for lethal , often presenting with sympathomimetic effects like , , and cardiovascular collapse, though blood concentrations alone do not reliably predict fatality due to limited data. No large-scale epidemiological data exists on overdose incidence, as 5-APB remains a niche with sporadic forensic reporting, but isolated deaths underscore risks even without polydrug involvement.

Legal Status

United Kingdom

In the , 5-APB (1-(benzofuran-5-yl)propan-2-amine) is classified as a Class B drug under the , subjecting it to controls on production, supply, possession, and importation. This classification places it alongside substances like , with maximum penalties for possession of up to 5 years' imprisonment, an unlimited fine, or both, and for supply or production up to 14 years' imprisonment, an unlimited fine, or both. The substance was initially addressed through a temporary class drug order issued in June 2013, prompted by evidence of its sale as a "legal high" akin to MDMA, reports of acute harms including hospitalizations, and analytical confirmation in seized products marketed as "benzo fury." In November 2013, the Advisory Council on the Misuse of Drugs advised permanent control under Class B, citing its structural similarity to controlled phenethylamines, prevalence in recreational settings, and potential for dependence and toxicity comparable to class B stimulants. This recommendation led to its addition to the permanent schedule effective from June 2014 via amendment to the Misuse of Drugs Act. As a result of its Class B status, 5-APB is also listed in Schedule 1 of the Misuse of Drugs Regulations 2001, prohibiting its use except under license for research or other specified purposes, with no recognized medical applications. The does not apply, as the substance predates and is captured by the earlier Misuse of Drugs Act framework.

International regulations and developments

5-APB has not been scheduled under the United Nations 1961 Single Convention on Narcotic Drugs, the 1971 Convention on Psychotropic Substances, or subsequent international treaties administered by the International Narcotics Control Board. As a new psychoactive substance (NPS), its control remains primarily at the national level, with varying degrees of prohibition across jurisdictions. The World Health Organization (WHO) has placed 5-APB on its list of substances under surveillance since 2017, monitoring its potential for abuse, health risks, and patterns of use to inform possible future recommendations for international scheduling. This surveillance status reflects ongoing global concerns about benzofuran derivatives but does not impose binding controls. The European Monitoring Centre for Drugs and Drug Addiction (EMCDDA) first reported detections of 5-APB in 2010, primarily through notifications from member states like the , triggering inclusion in its for NPS. By , EMCDDA data indicated widespread availability in , leading to national bans in countries such as , , and the , often under generic NPS legislation or specific analog provisions. No formal EU-wide has been conducted for 5-APB akin to those for substances like 5-IT, but its structural similarity to controlled amphetamines has prompted harmonized responses under Council Framework Decision 2004/757/JHA. Developments since the early 2010s include increased seizures and forensic identifications reported by the United Nations Office on Drugs and Crime (UNODC), with 5-APB noted in global NPS assessments as early as 2013. In non-European contexts, countries like Egypt incorporated 5-APB into national controlled substances lists in 2014 as part of broader NPS crackdowns. WHO's continued surveillance through 2024 underscores unresolved questions about its toxicity and dependence potential, with no escalation to critical review or scheduling proposals as of that date, reflecting a cautious approach to NPS amid debates over evidence thresholds for international action.

Societal and Cultural Aspects

Recreational use patterns

Recreational use of 5-APB primarily occurs among individuals seeking empathogenic and mild effects similar to those of , though with reported differences in duration and intensity. Users typically administer it orally in doses ranging from 50 to 120 mg, equivalent to 1-2 mg/kg body weight, with effects onsetting in 20-60 minutes and lasting 5-8 hours overall. is less common, involving lower doses of approximately 25-50 mg nasally, but it is noted for potentially harsher effects on nasal tissues and faster onset. Use patterns mirror those of other entactogens, with consumption often in social or party environments such as raves, where it promotes , , and energy without the same level of jaw clenching or associated with . Anecdotal reports indicate occasional redosing to extend effects, though less compulsively than with , and total session durations of 3-12 hours depending on dose and individual factors. Combinations with other substances, such as or stimulants, are reported but discouraged due to heightened risks of cardiovascular strain and serotonin-related complications. Frequency of use is generally sporadic, as to effects develops rapidly—halving within 3-7 days—and chronic administration raises concerns for dependence and linked to agonism. Data on prevalence remains limited, primarily derived from user self-reports on online forums and early detections in novel psychoactive substance markets, with no large-scale epidemiological surveys available. practices emphasize starting with low doses (e.g., 40-60 mg for light effects), hydration, and avoidance of polydrug use to mitigate acute risks like and .

Public health and policy implications

The recreational use of 5-APB has raised public health concerns primarily due to documented cases of and fatalities, often involving polydrug . Reported adverse effects include , , , seizures, and hallucinations, mirroring symptoms associated with derivatives. In one verified postmortem case, a blood concentration of 0.86 mg/L of 5-APB, combined with (0.6 g/L) and THC (0.0024 mg/L), was deemed contributory to , marking a rare instance of 5-APB as the primary intoxicant. studies indicate 5-APB exhibits greater than its , inducing significant liver cell damage potentially through mechanisms. Epidemiological data on 5-APB remains sparse, reflecting its niche status among new psychoactive substances (NPS), but its stimulant-entactogenic profile—, elevated , , and appetite suppression—amplifies risks of cardiovascular and thermoregulatory strain, particularly in unsupervised settings. At least 10 drug-related deaths have been linked to 5-APB, underscoring underreporting challenges in NPS monitoring and the hazards of impure or adulterated products. efforts are complicated by incomplete toxicological profiles, including potential for akin to and vasoconstrictive effects that may precipitate acute medical emergencies. Policy responses to 5-APB highlight tensions in regulating NPS, which are engineered to exploit regulatory gaps, necessitating rapid legislative adaptations over static scheduling. In the , a temporary class drug order banned 5-APB alongside analogs like , enabling swift prohibition based on emerging evidence without full parliamentary review. Similar emergency actions, such as Michigan's six-month scheduling in 2013, reflect a reactive prioritizing amid limited prevalence data. These measures underscore the value of international surveillance systems like those from the WHO, yet critics argue they may inadvertently foster markets without addressing root drivers of NPS appeal, such as demand for entactogens. Broader debates emphasize integrating toxicological with flexible controls to mitigation against overreach, given 5-APB's evasion of initial bans as a purported "legal high."

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