Showing posts sorted by relevance for query selenbp1. Sort by date Show all posts
Showing posts sorted by relevance for query selenbp1. Sort by date Show all posts

Wednesday, April 20, 2022

On Cabbage and Selenium Binding Protein 1

Mutations in the gene encoding Selenium Binding Protein (SELENBP1) on chromosome 1q21 were found in multiple individuals with extra-oral halitosis. These individuals had increased levels of methanethiol and dimethylsulfide in their breath perceived as unpleasantly cabbage-smelling. It was reported to worsen after drinking beer. 

The mutations responsible include rs1553204817 (OMIM: 604188.0001c.1039G>T); rs758495626 (c.673G>T (p.Gly225Trp)), rs1357490520 (c.481+1G>A disrupting splice site), and rs1553204840 (c.985C>T)

SELENBP1 was identified as a methanethiol oxidase (MTO), catalyzing the conversion of methanethiol (H3C-SH) to hydrogen sulfide (H2S), hydrogen peroxide (H2O2) and formaldehyde (HCHO). If this enzyme is not properly functional, the body will be releasing more Methanethiol  - a volatile and toxic gas with the characteristic smell of rotten cabbage. We get this compound from food - not only the cancer-fighting cabbage family, including radishes, but also orange juice, pineapple, strawberries, asparagus, wheat bread, gruyere cheese, coffee, roasted filberts and even cooked rice. Water, cherries, apples, whole milk, spinach and citrusy fruits could counteract the odor in some individuals. 

Selenium binding protein1 (SELENBP1) has been also associated with a rare disease hypermethioninemia (sometimes accompanied by learning disabilities and neurological problems), several cancers and schizophrenia (downregulated at its onset and upregulated at later stages); hypertension and ischemic heart conditions. Dysregulation of SELENBP1 is common to Zika virus (ZIKV) and dengue infections, and Guillain-Barré syndrome. It was also found to COVID-19.


REFERENCES

Pol A, Renkema GH, Tangerman A, Winkel EG, Engelke UF, De Brouwer AP, Lloyd KC, Araiza RS, Van Den Heuvel L, Omran H, Olbrich H. Mutations in SELENBP1, encoding a novel human methanethiol oxidase, cause extraoral halitosis. Nature genetics. 2018 Jan;50(1):120-9.

Philipp TM, Will A, Richter H, Winterhalter PR, Pohnert G, Steinbrenner H, Klotz LO. A coupled enzyme assay for detection of selenium-binding protein 1 (SELENBP1) methanethiol oxidase (MTO) activity in mature enterocytes. Redox Biology. 2021 Jul 1;43:101972.

Lin X, Lin Z, Zhao X, Liu Z, Xu C, Yu B, Gao P, Wang Z, Ge J, Shen Y, Li L. Serum SELENBP1 and VCL Are Effective Biomarkers for Clinical and Forensic Diagnosis of Coronary Artery Spasm. International Journal of Molecular Sciences. 2022 Oct 31;23(21):13266.

Chau EJ, Mostaid MS, Cropley V, McGorry P, Pantelis C, Bousman CA, Everall IP. Downregulation of plasma SELENBP1 protein in patients with recent-onset schizophrenia. Progress in Neuro-Psychopharmacology and Biological Psychiatry. 2018 Jul 13;85:1-6.

Zhang X, Hong R, Bei L, Hu Z, Yang X, Song T, Chen L, Meng H, Niu G, Ke C. SELENBP1 inhibits progression of colorectal cancer by suppressing epithelial–mesenchymal transition. Open Medicine. 2022 Jan 1;17(1):1390-404.

Moni MA, Lio’ P. Genetic profiling and comorbidities of zika infection. The Journal of infectious diseases. 2017 Sep 15;216(6):703-12.

de Melo CV, Bhuiyan MA, Gatua WN, Kanyerezi S, Uzairue L, Abechi P, Kumar K, Rahmat J, Giwa A, Mwandira G, Olamilekan AM. Transcriptomic dysregulations associated with SARS-CoV-2 infection in human nasopharyngeal and peripheral blood mononuclear cells. bioRxiv. 2020 Jan 1.

Albert-Puleo M. Physiological effects of cabbage with reference to its potential as a dietary cancer-inhibitor and its use in ancient medicine. Journal of ethnopharmacology. 1983 Dec 1;9(2-3):261-72.


Wednesday, October 4, 2023

Methanethiol: The Scent of Disease and Discovery

In a previous blog post, we discussed the role of SELENBP1 in nonosyndromic (monosymptomatic) halitosis. We learned that if this enzyme isn't functioning correctly, it can lead to the release of more Methanethiol, a volatile and rather unpleasant-smelling gas often associated with the aroma of rotten cabbage. 

However, Selenium binding protein 1 (SELENBP1) isn't just a casual bystander in our biological processes. It has been linked to various health conditions and diseases. These include:

Hypermethioninemia: A rare condition that can sometimes come with learning disabilities and neurological issues.

Schizophrenia: a complex mental disorder that challenges our understanding of the human mind

Hypertension and Ischemic Heart Conditions, conditions such as Guillain-Barré syndrome and Infectious Diseases: Dysregulation of SELENBP1 is associated with Zika virus (ZIKV) and dengue infections, as well as COVID-19.

SELENBP1's role in several types of cancer, including its downregulation at the onset of cancer and upregulation in later stages, is a subject of intense research.

Methanethiol contributes to the distinct scent signature linked to cancer, characterized by a combination of volatile organic compounds (VOCs). Researchers are increasingly exploring this intriguing scent profile as a potential tool for non-invasive early cancer diagnosis.

Methanethiol is a testament to the intricate connections between genetics, metabolism, and disease, reminding us that even the smelliest molecules can lead to groundbreaking discoveries.

Methanethiol also contributes to the distinct scent signature associated with cancer, characterized by a combination of volatile organic compounds (VOCs). This intriguing scent profile is increasingly being explored for non-invasive early cancer diagnosis.

In a recent paper titled "Methanethiol: A Scent Mark of Dysregulated Sulfur Metabolism in Cancer,"  researchers unveiled new findings:

Tumor cells undergo metabolic adaptations to meet increased energy demands and enhance stress resilience. This includes dysregulation of sulfur metabolism and elevated levels of volatile sulfur compounds (VSCs) in cancer patients.

Methanethiol stands out as the predominant cancer-associated VSC and is being considered as a potential biomarker for non-invasive cancer diagnosis.

Within the gut microbiome of colorectal carcinoma (CRC) patients, gut bacteria, particularly methanethiol-producing strains like Fusobacterium nucleatum, are a significant source of exposure to methanethiol.

Selenium-binding protein 1 (SELENBP1) plays a crucial role in the rapid degradation of methanethiol through its methanethiol oxidase (MTO) activity.

Odor-based cancer screening methods, such as sniffer dogs and canine scent detection, even human feedback, have shown great promise in identifying lung and colorectal cancer patients, opening doors to non-invasive detection approaches.

The dysregulation of sulfur metabolism and the potential use of methanethiol as a biomarker, coupled with the innovative odor-based cancer screening methods, offer not just promising but transformative avenues for non-invasive cancer detection and cutting-edge research.


REFERENCE

Philipp TM, Scheller AS, Krafczyk N, Klotz LO, Steinbrenner H. Methanethiol: A Scent Mark of Dysregulated Sulfur Metabolism in Cancer. Antioxidants (Basel). 2023 Sep 19;12(9):1780. doi: 10.3390/antiox12091780. PMID: 37760083; PMCID: PMC10525899.

Saturday, August 26, 2023

Chronicles of Community-Driven Research: The Evolution of MEBO and PATM Studies

In the ever-evolving landscape of medical science, the untangling of medical mysteries often hinges not just on technological advancements or expert researchers, but on the active involvement of community members. Community efforts have been instrumental in the identification and understanding of elusive conditions MEBO (Metabolic Body Odor) and PATM (People Are Allergic to Me).

Late 1990s - early 2000s: The Dawn of Online Support Forums 

Before the conditions were officially named, online forums like MSN Body Odor Support Forum, ibsgroup.org, Yahoo TMAU group, and Curezone BO & Halitosis and TMAU forums served as early platforms for sufferers to discuss their symptoms. 

At this time, Trimethylaminuria (TMAU) was a scarcely recognized condition, and diagnostic tests were both costly and geographically limited. Trimethylaminuria support group, later established as foundation raises 35K and awards it to Dr. George Preti of Monell Center, the world’s only independent, non-profit scientific institute dedicated to interdisciplinary basic research on the senses of taste and smell.

2006-2007: Birth of MEBO and PATM Communities

In 2006, the acronym "PATM" was first coined by a sufferer, and by 2007, a dedicated PATM community was established on MedHelp. The initial post was reposted in PATM forum and garnered over 8,800 responses, signifying the start of a community-led initiative to explore the condition. While the term FBO (fecal body odor) emerged earlier and is still used on online forums,  it is often avoided due to its less appealing connotation. MEBO was coined by another individual suffering from a similar undiagnosed condition. This further fueled community-driven research and knowledge sharing among those affected.

2008: Broadening the Dialogue

The blog Bloodbornebodyodorandhalitosis.com is launched, later transitioned to meboblog.com. This year also saw more in-person meetups and community surveys, including one by pharmacist Arun Nagrath that received about 100 responses. 95% of responders was trying to seek medical help, over 90% thought that their doctor was not knowledgeable nor confident in their recommendations. 


2009: Formalizing Research Efforts

MEBO Research Charity was founded in both the UK and Florida, spearheaded by Maria de la Torre. The first collaborative study with UK's Biolab was initiated, focusing on blood and urine tests. The results were subsequently published on the MEBO blog and clinicaltrials.gov (NCT02692495, principal investigator: Irene Gabashvili).

2010: Unveiling the Microbiome and Genetic Factors

At MEBO's 1st annual conference, held in Nashville, Dr. Gabashvili presents "Microbes and us," discussing the human microbiome's role in poorly understood conditions like idiopathic malodor and multiple chemical sensitivities (MCS). Previously, MEBO interviewed Metametrix about their GI Effects panel, which measured stool bacteria, fungus, and parasites with DNA analysis.  Metametrix, pioneer in diagnostics of nutritional insufficiencies and metabolic dysfunction,was later acquired by Genova Diagnostics.

Dr. Nigel Manning introduces 12 potential subtypes of TMAU. Out of 1,150 urine samples from 716 individuals collected between 1997 and 2009, 379 (53%) indicate significant TMAU presence. The launch of a new FMO3 genetic testing service promises to provide clearer diagnostic results. Additionally, a TMAU service dog program is initiated.

2011: The Advent of Genomic Data Sharing

Community members begin sharing genomic data, and MEBO critiques the limitations of 23andMe's FMO3 testing in blog posts. Dr. George Preti and his team at the Monell Center publish "Individuals reporting idiopathic malodor production: demographics and incidence of trimethylaminuria", revealing that only one-third of individuals with idiopathic malodor test positive for TMAU. New study from Oxford, proposes two genes coding enzymes, besides FMO3, NAT8 and PYROXD2, both with relatively uncharacterized functional roles, as potentially linked to TMAU. 

The second annual meetup in Washington, DC, focuses on the interplay between genetic mechanisms and holistic health. Skype conference call group is formed. 

2012: Empowering Patients Through Technology
A new MEBO study focusing on alveolar breath is initiated (NCT03451994). Aurametrix health management software is publicly launched, allowing patients to diagnose metabolic inefficiencies through digital food and symptom journaling. Karen James, MEBO UK’s Public Relations Director, publishes an article in the Royal College of General Practitioners (RCGP) journal InnovAiT, describing the life of a TMAU sufferer. For iGEM competition,  student team from Fatih university genetically engineers bacteria producing geraniol and FMO3 to eliminate TMA odors. Their product, FreshEcoli, is supposed to work as a synthetic perfume. 

The Third Annual Meetup in Miami Beach features Dr. Elizabeth Shephard discussing pharmacogenetics and personalized medicine.

2013: Deepening Theoretical Insights
MEBO UK's scientific director, Dr. Colin Harvey-Woodworth, publishes an article proposing that some MEBO symptoms may be secondary to dimethylsulphidemia, a previously unidentified metabolic condition linked to DMGDH gene. Concurrently, a mediterranean study reveals that individuals carrying FMO3 mutations may not necessarily experience odor issues. The study finds that the TMA/TMAO ratio in urine samples from individuals with 158KK/308EG variants indicates reduced FMO3 activity, yet these individuals do not exhibit the hallmark fish-like odor commonly associated with trimethylaminuria. This data underscores the notion that the expression of trimethylaminuria symptoms is influenced by factors beyond the presence of specific genetic variants.

2014: Therapeutic Innovations
Dr. Jean-François Brugère proposes the therapeutic use of archaea to prevent trimethylaminuria and cardiovascular disease. The technique was patented but not yet tested in humans. MEBO's TMAU urine testing program is initiated, and the results  are discussed. Another student team from Paris University, genetically engineers skin bacteria by introducing a trimethylamine mono-oxygenase from a non-human bacteria Ruegeria pomeroyi, for iGEM competition. Dr. Aydin proposes new definitions for halitosis. Reddit TMAU and PATM groups are created. 

2015: Expanding Testing and new molecular targets
The MEBO Conference in Orlando distributes urine test kits based on choline challenges and discusses emerging trends in testing methodologies.

3,3-Dimethyl-1-butanol (DMB), which is a structural analog of choline found in some foods, such as balsamic vinegars, red wines, some cold-pressed extra virgin olive oils and grapeseed oils is demonstrated to inhibit TMA production by gut bacteria. DMB has potential as a therapeutic approach. Studies also show the inhibitory effects of Resveratrol on TMA production in mice, further expanding the scope of potential small molecule targets. Dr Stanley Hazen files a patent.

2016: Streamlining Diagnostic Approaches
MEBO collaborates with Professor David Wishart on a Urine Metabolomics study, registered as NCT02683876, involving Canadian participants. The study aims to explore simpler, non-challenge-based tests for diagnosis.

Several sufferers in the MEBO community report taking Resveratrol for a few months, with excellent results in decreasing or completely eliminating their odor symptoms while increasing consumption of foods high in choline, carnitine, and lecithin.


2017: Diagnostic Breakthroughs and the Social Media Shift

MEBO's Scientific Director, Irene Gabashvili, publishes the Biolab study on BiorXiv. The study reveals significant differences in intestinal permeability among participants based on body regions responsible for VOC emissions. In addition, the study identifies two subgroups of MEBO/PATM sufferers based on sugar intake. Due to the small sample size of 16 participants, the article remains a preprint. Unfortunately, the current structure and incentives of mainstream academic publishing favor well-funded research on common diseases and are less accommodating to research on overlooked rare conditions. 

A Monell Center Study published in BMC Medical Genetics delves into the genetic complexities of TMAU, revealing that not all cases are linked to the FMO3 gene. Although the choline challenge test confirmed a diagnosis of TMAU by revealing a high level of urinary TMA in all 10 subjects, genetic analyses revealed that the FMO3 gene appeared to be normal in four of the 10. Additional analyses revealed defects in several other genes that could contribute to the inability to metabolize the odorous TMA. No rare variants are found in PYROXD2 and a DMGDH, but there were associations with BHMT2, SARDH and SHMT1 genes, which directly interact with DMGDH in the gene network and may participate in the same pathway. At MEBO conference in Miami Beach, Professor Shephard talks about microbiome and diet

Armpit microbiome transplantation shows reduction in odor when performed from one sibling to another. 

Danny Kunz and his Citizen Research Group in Germany initiate a DNA sequencing study. Their simulations backed by large enzyme databases suggest that Thyroid-stimulating hormone (TSH) may play a role. Danny proposes a new name for the condition: Intestinal Metabolic Bromhidrosis Syndrome (IMBS).

TMAU UP Podcast is launched on YouTube. Facebook's "Groups" feature spurs the creation of new private MEBO and PATM communities, marking a new era in community engagement and data sharing.

2018-2020: Advancing Research and Understanding

Microbiome study of MEBO and PATM communities is initiated, registered as NCT02683876

A Japanese paper confirms PATM as a physical condition connected to skin petrochemicals and microbes. Meanwhile a case report entitled "People allergic to me and body dysmorphic disorder" published in Asian Journal of Psychiatry is linking a case to a relatively common psychiatric disorder characterized by preoccupations with perceived defects in physical appearance. The average age of BDD onset was previously estimated as 15 with symptoms lasting 18 years on average without proper treatment. The prevalence of BDD is thought to be 0.7-2.4% in the general population, but the condition remains underdiagnosed and poorly understood.

Results from the MEBO-Wishart study align with previous MEBO/PATM findings but highlight the limitations of morning urine tests. A new PATM survey is conducted by an independent PATM ufferer/researcher. Average age of responders is 28. Mononucleosis due to CMV is proposed as the cause of PATM.

UC San Diego student team explores the enzymatic breakdown of TMA. New gene SELENBP1 is proposed to explain metabolic halitosis. A patent on using Mikania plant extract to inhibit the conversion of choline to trimethylamine (TMA) is filed and granted, based on an earlier patent for using this plant to suppress body odor. 

RareConnect is established as a platform for those affected by rare diseases, including MEBO Research members. MEBO Research becomes a member. Unfortunately, by the end of 2023 it will be shut down, not being able to compete with Facebook and Reddit. Yahoo Groups shut down on December 15, 2020, for the same reason. New Instagram and WhatsApp groups are created.

New paper "Treatments of trimethylaminuria: where we are and where we might be heading" is published. It reviews Fecal microbial transplantation (FMT) that was not especially successful for reducing TMA or was only transiently effective as the symptoms returned one year after treatment. Antibiotic treatment is also transiently effective in some patients and completely ineffective in others.  Future research directions include gene therapy, enzyme replacement/enhancement therapy and gut microbiome modulation. 

Peer-reviewed paper examining the microbiome traits of individuals self-identifying with PATM and MEBO (NCT02683876) is published in JMIR Dermatology. The study reveals that both MEBO and PATM share increased levels of malodor-associated skin bacteria compared to non-MEBO/non-PATM groups, correlating with severity of self-reported symptoms. However, both populations exhibit significant heterogeneity.

2021-2023: Ongoing Challenges and Future Directions

A COVID study identifies flare-ups in 10-15% of the MEBO population post-infection and vaccination, possibly related to microbiome and hormonal fluctuations (NCT04832932; peer-reviewed paper published in JMIR Formative Research). COVID-19 has led to the emergence of new cases, with individuals developing MEBO/PATM conditions following infection and/or vaccination.

A cysteine challenge test for hydrogen sulfide production is suggested. Florida State University's iGem team proposes a synthetic biology project for TMAU

New paper by Chris Callewaert explores various cutting-edge approaches to skin health, including genetically engineered probiotics and microbiome transplantation. While promising, the latter method currently lacks scalability for industrial applications. The paper also delves into skin bacteriotherapy, a technique involving the application of one or multiple pure bacterial cultures with health-promoting properties to cleansed or disinfected skin areas. Additionally, the study examines the use of prebiotics applied directly to the skin to encourage the growth of beneficial microbes. Each of these innovative approaches holds promise but also presents its own set of challenges.

A study by Professor Sekine in Nature Scientific Reports identifies volatile organic compounds as key differentiators between PATM sufferers and controls. These results align with our yet to be published findings from MEBO-Menssana Alveolar Breath Test Study (NCT03451994) and Microbiome study (NCT03582826). 

The FSU team introduces their innovative probiotic, E.esperance, at the iGEM competition in Paris on November 2, 2023.


Despite these advancements, mainstream science remains largely uninterested in community-based research, leaving MEBO, PATM and TMAU without a definitive cure.

Thursday, November 17, 2022

Olfactory Signatures and COVID-19

Olfactory disorders have a significant impact on human lives - be it a lost/distorted sense of smell or unpleasant odors affecting the sense of smell of others. 

Odortypes can be influenced by human leukocyte antigen (HLAgenes of the major histocompatibility complex (MHC), genes associated with stronger response to COVID-19 vaccine as well as the severity of this disease. HLA may also be related to people's perception of the odor of other people. 

Of course, these are not the only variables involved, and there are more potentially overlapping risk factors for olfaction, metabolic body odor (MEBO), including trimethylaminuria (TMAU), and COVID-19: FMO3, SELENBP1HspA, UGT2A1/UGT2A2, etc. 

A new peer-reviewed paper reporting results of a decentralized observational study (NCT04832932) compared MEBO participants to general populations in respect to their response to COVID-19 vaccines and SARS-Co-V2 infections. 
Body odor flareups were observed in about 10% of malodor sufferers after vaccination, as preliminarily reported. This number was similar to flareups of other chronic symptoms in groups of participants with gastrointestinal and autoimmune disorders.  

Long-term worsening of body odor was observed by other researchers after COVID-19 vaccination in about ~1% of studied populations. Dry mouth leading to halitosis was 10 times more prevalent compared to flu vaccines. MEBO participants reported stronger reactions than general population pointing to genetic and microbiome influences beyond FMO3.  

A better understanding of systemic malodor conditions could offer leads for targeted therapies. Findings on genetic and microbiome overlaps between COVID-19 and MEBO could pave the way for precision medicine to address the unmet needs of odor sufferers.


REFERENCE

Gabashvili IS. The Incidence and Effect of Adverse Events Due to COVID-19 Vaccines on Breakthrough Infections: Decentralized Observational Study With Underrepresented Groups. JMIR Formative Research. 2022 Nov;6(11):e41914. DOI: 10.2196/41914. PMID: 36309347; PMCID: PMC9640199.