Month: June 2019

Toluene

What is toluene? 

  • Toluene is also known as toluol, methylbenzene, and phenylmethane 
  • Organic compound 
  • Volatile liquid  
  • Non-polar solvent 
  • Cholinergic antagonist 
  • Neurotoxin 
  • Fuel additive 
  • Clear and colorless 

PubChem: Toluene.  

Chemical structure of toluene

Image link.

Watch this video to learn more about toluene. 

Sources of Toluene

  • Naturally found in crude oil and the tolu tree  
  • Can be produced as a byproduct of gasoline or other fuel production, or during the leather tanning process  
  • Also found in paints, nail polish, adhesives, rubber, and paint thinners 
  • People working in factories, workshops, and refineries are at risk for occupational exposure 
  • Voluntary exposure can be due to “huffing, sniffing, cuffing, or bagging” for recreational purposes 
  • Effects can last from 15-60 minutes 

PubChem: Toluene. Review of toluene action: clinical evidence, animal studies and molecular targets.

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Biotransformation 

Toluene undergoes biotransformation by the cytochrome P450 enzyme CYP2E1, which is a phase 1 enzyme. Interestingly, it has been found that increased exposure to toluene results in increased CYP2E1 mRNA expression.  

PubChem: Toluene.

Toxicokinetics 

  • Absorption: occurs primarily via the lungs, but can also occur through the skin (dermal) and through the gastrointestinal tract  
  • Distribution: occurs through organs that are primarily composed of lipids; it is important to note that toluene can readily cross the blood brain barrier and the placenta 
  • Metabolism: in the liver, where it is converted to benzyl alcohol and benzoic acid; metabolized by CYP2E1 
    • Ultimately forms hippuric acid 
    • This dissociates into anions and protons  
    • Excess hippuric acid formation can result in metabolic acidosis, or too much acid in the body, and hypokalemia, or very low potassium levels; this is extremely dangerous  
  • Excretion: urine  

Review of toluene action: clinical evidence, animal studies and molecular targets.

Watch this video to learn more about inhalants, including toluene. 

Carcinogenicity 

According to the EPA and IARC, toluene cannot be classified as a human carcinogen because of the insufficient evidence available. Therefore, more studies should be conducted to determine the carcinogenic potential of toluene in humans.  

PubChem: Toluene. Agency for Toxic Substances and Disease Registry: Toluene.

Mechanism of Action 

Toluene has a variety of effects on the central nervous system. Effects have been shown to be both reversible and irreversible.  

  • Impacts dopaminergic neurons in the basal ganglia 
    • This results in changes in sensory-motor functions 
  • Impacts glutamate and GABA receptor binding  

PubChem: Toluene.

Target organs 

Toluene impacts nearly every organ system, including the:  

  • immune system
  • nervous system
  • respiratory system
  • central nervous system
  • eyes
  • skin
  • liver
  • kidneys

PubChem: Toluene.

Signs and symptoms of toxicity 

  

Please click on the above image to read about the acute and chronic signs and symptoms of toluene exposure.

Review of toluene action: clinical evidence, animal studies, and molecular targets. Table 1: Effects of toluene exposure.

Genetic Susceptibility

Toluene diisocyanate (TDI) and Occupational Asthma (OA) 

  • Exposure to toluene diisocyanate is known to cause occupational asthma
    • OA is defined as “variable airflow limitation or airway hyperresponsiveness” that is a result of occupational exposure” (Christiani et al). 
    • Mechanism is unclear, but may be related to an IgE mechanism 
  • Studies have shown genetic differences in people with TDI-induced OA compared to normal subjects 
    • The results found a positive association between TDI-induced OA and the HLA-DQB1*0503 gene  
    • Interestingly, this demonstrates that genetic changes have occurred in people who have been exposed to TDI

 Genetic susceptibility to occupational exposures. 

Unique Exposures 

There have been many epidemiological studies conducted on the effects of toluene exposure. Here are some interesting examples: 

  • A study in Singapore found that women exposed to toluene while working in an audio speaker factory had higher rates of spontaneous abortion compared to the control group.  
  • A psychiatric study found that male workers who had over 12 years of toluene exposure were more likely to have intellectual impairments such as problems with concentration, learning, and memory when compared to the non-exposed control group.
  • A study in France examined those exposed to toluene while working in a printing plant found that many of the workers exhibited progressive changes in their color vision.

PubChem: Toluene.

Treatments 

  • Remove clothing and wash the exposed areas immediately  
  • Eyes can be flushed with saline  
  • Do not induce vomiting  
  • Activated charcoal may be helpful if the patient is alert and has a gag reflex  
  • Currently, there is no toluene antidote available 
  • Treatment should focus on respiratory and cardiovascular support  

Medical Management Guidelines for Toluene.

Biomarkers 

  • Levels of toluene in the blood are the most reliable indicator  
  • Levels of hippuric acid (see image below) in the urine can be used to determine acute toluene exposure 
    • This is not a reliable indicator of chronic exposure due to the short half-life of hippuric acid

PubChem: Toluene.

Hippuric Acid 

Image link.

Disclaimer: I do not own any of these images. Each image has been cited with its corresponding link. 

References 

  1. PubChem. Toluene. https://pubchem.ncbi.nlm.nih.gov/compound/1140. Accessed June 29, 2019.
  2. ATSDR – Toxic Substances – Toluene. https://www.atsdr.cdc.gov/substances/toxsubstance.asp?toxid=29. Accessed June 29, 2019.
  3. Cruz SL, Rivera-García MT, Woodward JJ. Review of toluene action: clinical evidence, animal studies and molecular targets. J Drug Alcohol Res. 2014;3. doi:10.4303/jdar/235840
  4. Filley CM, Halliday W, Kleinschmidt-Demasters BK. The Effects of Toluene on the Central Nervous System. J Neuropathol Exp Neurol. 2004;63(1):1-12. doi:10.1093/jnen/63.1.1
  5. Christiani DC, Mehta AJ, Yu C-L. Genetic susceptibility to occupational exposures. Occup Environ Med. 2008;65(6). doi:10.1136/oem.2007.033977
  6. ATSDR – Medical Management Guidelines (MMGs): Toluene. https://www.atsdr.cdc.gov/mmg/mmg.asp?id=157&tid=29. Accessed June 29, 2019.

Arsenic

Sources

Arsenic is found in a variety of places, including rocks, soil, water, plants, animals, and the food that we eat. It can be found in its pure form, but it’s most commonly seen in combination with other chemical compounds. These compounds can be organic or inorganic.  

Image link.

Watch the video below to learn more about arsenic.

Three significant groups of arsenic compounds  

  • Organic: Arsenic + carbon 
  • Inorganic: Arsenic + other elements (not carbon)  
  • Arsine gas  

Arsenic is found in the following foods: 

  • Rice 
  • Cereal 
  • Seafood 
  • Chicken 
  • Mushrooms  

Image link.

Watch the video below to learn more about arsenic in food.

Arsenic can be found in drinking water.   

  • Levels vary widely across countries 
  • Water in rural communities are more likely to have higher arsenic levels
  • Higher in groundwater sources than surface sources 

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Other sources of arsenic 

  • Industrial fumes 
  • Pressure-treated lumber (prior to 2004)  

(Arsenic and Cancer Risk; Arsenic and Arsenic Compounds)

Biotransformation 

Methylation

  • Inorganic arsenic (the toxic form) becomes methylated and turns into methylarsonic acid (MMA) and dimethylarsinic acid (DMA)
  • Diets low in methionine or protein can result in decreased methylation of arsenic
  • Age and pregnancy can impact arsenic methylation in humans

Reduction

  • Arsenic becomes reduced in the blood  
  • Glutathione serves as the reducing agent 

(Mechanisms of arsenic biotransformation).   

Toxicokinetics 

  • Absorption: primarily small intestine  
  • Distribution: kidneys, liver, heart, lungs, muscle, nervous system, gastrointestinal tract, spleen, and deposits in keratin-rich areas
  • Metabolism: hepatic  
  • Excretion: urine  

Carcinogenicity 

The International Agency for Research on Cancer (IARC) classifies arsenic and inorganic arsenic compounds as “carcinogenic to humans.” Cancer of the lung, bladder, skin, kidney, liver, and prostate is linked to arsenic exposure.

Organic arsenic compounds are less dangerous, as the IARC classifies them as “possibly carcinogenic to humans.” (Arsenic and Cancer Risk).  

Mechanism of Action

From a toxicological standpoint, the trivalent and pentavalent states of arsenic are of the most concern. Each will be discussed separately.  

Pentavalent arsenic MOA 

  • Inhibition of hexokinase in glycolysis 
  • Replacement of phosphate in the sodium pump of human erythrocytes 
  • Uncoupler of adenosine-5′-triphosphate (ATP) via arsenolysis and subsequent depletion of ATP 

Trivalent arsenic MOA 

  • Has the ability to bind strongly to thiol groups which could result in toxicity 
  • Inhibition of pyruvate dehydrogenase, which has downstream effects in the citric acid cycle  

(Arsenic toxicity and potential mechanisms of action).  

Image link: Arsenic Exposure and Toxicology: A Historical Perspective. Figure 2.

Target organs 

Arsenic impacts nearly all organ systems, including the skin, gastrointestinal, cardiovascular, neurological, genitourinary, respiratory, endocrine, and hematological systems (Acute and chronic arsenic toxicity).  

Signs and symptoms of toxicity 

Acute poisoning signs and symptoms 

  • Vomiting 
  • Diarrhea (dominant feature) 
  • Abdominal pain 
  • Hypersalivation 
  • Psychosis 
  • Diffuse skin rash 
  • Seizures  
  • Hemoglobinuria 
  • Pancytopenia  
  • Anemia 
  • Respiratory failure 
  • Pulmonary edema 
  • Peripheral neuropathy 

Chronic signs and symptoms  

  • Abdominal pain 
  • Diarrhea  
  • Sore throat 
  • Cancer and other malignancies  

(Acute and chronic arsenic toxicity)

How is arsenic poisoning diagnosed? 

If arsenic poisoning is suspected, samples should be taken from hair, urine, and blood. 

  • Acute poisoning: 1.0-3.0 mg/kg in a hair sample.
  • Chronic poisoning0.1-0.5 mg/kg in a hair sample  

(Acute and chronic arsenic toxicity)

How is arsenic poisoning treated?

If arsenic poisoning is suspected, contaminated clothes should be removed immediately. The skin should be rinsed to remove leftover arsenic that may be present. Treatment for acute arsenic poisoning includes gastric lavage, hemodialysis, and dimercaprol (British anti-Lewisite; pictured below) (Acute and chronic arsenic toxicity).

Image link.

Genetic susceptibility or heritable traits 

Studies have shown there is variability in genetic susceptibility to arsenic toxicity. Some genetic polymorphisms in enzymes responsible for arsenic metabolism include: 

  • Arsenic (III) methyltransferase 
  • Glutathione S-transferase  
  • Methylenetetrahydrofolate reductase  

Please click here to see more on the genetic polymorphisms involved in arsenic toxicity by going to page 1533, Table 2.  

Some individuals possess single nucleotide polymorphisms which render them less likely to repair oxidative damage. This includes the following genes:  

  • HOGG1 
  • APE1 
  • XRCC1 
  • XRCC3 

In simpler terms, individuals who have variation in these enzymes or genes can be more susceptible to arsenic toxicity if and when they encounter it.

Arsenic-Induced Genotoxicity and Genetic Susceptibility to Arsenic-Related Pathologies.

Historical or unique exposures 

  • Arsenic has been commonly used as a homicidal and suicidal poison 
  • It has been used for these reasons since the Middle Ages 
  • It is sometimes called the “poison of kings” as it was used to remove members of the ruling class; it was used to kill Napoleon Bonaparte in 1851 
  • Arsenic was used as a pigment in the 1800s and caused many accidental arsenic poisonings  

Please click here and go to page 307, Table 2 to learn more about historical events related to arsenic toxicity.  

Arsenic Exposure and Toxicology: A Historical Perspective.

Biomarkers of Exposure

Arsenic can be quantified using samples from hair, nails, blood, or urine.  

  • Arsenic levels in keratin-rich areas such as nails may indicate chronic or past exposure 
  • Arsenic levels in blood or urine may indicate recent or acute exposures  
  • Urine levels typically range from 5-20 µg/L 

(Arsenic and Arsenic Compounds)

Essentiality

Although it is up for debate, some studies suggest that arsenic is an essential nutrient that plays a role in methionine metabolism. Methionine (pictured below) metabolism is vital during pregnancy, lactation, and vitamin B6 deprivation (Evidence for arsenic essentiality). 

Image link.

Deficiency

Arsenic deprivation studies have demonstrated that rats deprived of arsenic had changes in their coats and growth rate compared to the control group. Some studies show that arsenic deprivation manifests similarly to vitamin B6 deficiency (Evidence for arsenic essentiality).  

Disclaimer: I do not own any of these images. Each image has been cited with its corresponding link. 

References 

  1. Arsenic and Cancer Risk. https://www.cancer.org/cancer/cancer-causes/arsenic.html. Accessed June 7, 2019.
  2. Ng J, Gomez-Caminero A, International Programme on Chemical Safety, eds. Arsenic and Arsenic Compounds. 2. ed. Geneva: World Health Organization; 2001.
  3. Hughes MF, Beck BD, Chen Y, Lewis AS, Thomas DJ. Arsenic Exposure and Toxicology: A Historical Perspective. Toxicological Sciences. 2011;123(2):305-332. doi:10.1093/toxsci/kfr184
  4. Ratnaike RN. Acute and chronic arsenic toxicity. Postgraduate Medical Journal. 2003;79(933):391-396. doi:10.1136/pmj.79.933.391
  5. Uthus EO. Evidence for arsenic essentiality. Environmental Geochemistry and Health. 1992;14(2):55-58. doi:10.1007/BF01783629
  6. Vahter M. Mechanisms of arsenic biotransformation. Toxicology. 2002;181-182:211-217. doi:10.1016/S0300-483X(02)00285-8
  7. Arsenic poisoning: Causes, symptoms, and treatment. Medical News Today. https://www.medicalnewstoday.com/articles/241860.php. Accessed June 7, 2019.
  8. Hughes MF. Arsenic toxicity and potential mechanisms of action. Toxicology Letters. 2002;133(1):1-16. doi:10.1016/S0378-4274(02)00084-X
  9. Faita F, Cori L, Bianchi F, Andreassi M. Arsenic-Induced Genotoxicity and Genetic Susceptibility to Arsenic-Related Pathologies. International Journal of Environmental Research and Public Health. 2013;10(4):1527-1546. doi:10.3390/ijerph10041527
  10. Hughes MF, Beck BD, Chen Y, Lewis AS, Thomas DJ. Arsenic Exposure and Toxicology: A Historical Perspective. Toxicological Sciences. 2011;123(2):305-332. doi:10.1093/toxsci/kfr184