Your search keyword '"Poh-San, Lai"' showing total 138 results

1. Embryo and fetal gene editing: Technical challenges and progress toward clinical applications

Author

Citra N.Z. Mattar, Wei Leong Chew, and Poh San Lai

Subjects

embryo, fetus, base editing, CRISPR-Cas9, viral vectors, lipid nanoparticles, Genetics, QH426-470, Cytology, QH573-671

Abstract

Gene modification therapies (GMTs) are slowly but steadily making progress toward clinical application. As the majority of rare diseases have an identified genetic cause, and as rare diseases collectively affect 5% of the global population, it is increasingly important to devise gene correction strategies to address the root causes of the most devastating of these diseases and to provide access to these novel therapies to the most affected populations. The main barriers to providing greater access to GMTs continue to be the prohibitive cost of developing these novel drugs at clinically relevant doses, subtherapeutic effects, and toxicity related to the specific agents or high doses required. In vivo strategy and treating younger patients at an earlier course of their disease could lower these barriers. Although currently regarded as niche specialties, prenatal and preconception GMTs offer a robust solution to some of these barriers. Indeed, treating either the fetus or embryo benefits from economy of scale, targeting pre-pathological tissues in the fetus prior to full pathogenesis, or increasing the likelihood of complete tissue targeting by correcting pluripotent embryonic cells. Here, we review advances in embryo and fetal GMTs and discuss requirements for clinical application.

Published

2024

2. P719: SMN1 deletion and silent carrier screening for spinal muscular atrophy

Author

Poh San Lai, Grace Chia, Grace Tan, CP. Liu, PS. Low, and Stacey Tay

Subjects

Genetics, QH426-470, Medicine

Published

2024

3. Mutation spectrum analysis of DMD gene in Indonesian Duchenne and Becker muscular dystrophy patients [version 3; peer review: 2 approved]

Author

Ery Kus Dwianingsih, Kristy Iskandar, Sunartini Hapsara, Chun Ping Liu, Rusdy Ghazali Malueka, . Gunadi, Masafumi Matsuo, and Poh San Lai

Subjects

Research Article, Articles, Duchenne muscular dystrophy, Becker muscular dystrophy, DMD gene, mutation analysis, Indonesia, MLPA

Abstract

Background Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are allelic disorders caused by mutations in the DMD gene. The full mutation spectrum of the DMD gene in Indonesian patients is currently unknown. Mutation-specific therapies are currently being developed, such as exon skipping or stop codon read-through therapy. This study was conducted with the aim of identifying the mutation spectrum of the DMD gene in Indonesia to guide future development and application of feasible therapeutic strategies. Methods This study is a cross sectional study that enrolled 43 male patients with a clinical suspicion of DMD or BMD. Multiplex ligation-dependent probe amplification (MLPA) reaction was performed to screen for the common mutations in the DMD gene. Results Out of 43 subjects, deletions accounted for 69.77% (n=30) cases, while duplications were found in 11.63% (n=5) cases. One novel duplication spanning exons 2 to 62 was identified. Deletion mutations clustered around the distal (66.67%) and proximal (26.67%) hot spot regions of the DMD gene while duplication mutations were observed solely at the proximal region. Two false positive cases of single exon deletion detected through MLPA were attributed to sequence mutations affecting primer ligation sites, confirming the need to validate all single exon deletions when using this screening method. Analysis of available maternal DNA samples showed that the rate of de novo mutations (48.15%) appears higher than expected in this population. Out of 31 patients who were classified as DMD based on clinical and genotype characterizations, 60.47% (n=26) of cases were suitable for exon skipping therapy. Conclusion This is the first comprehensive study showing the feasibility of implementing the MLPA method for routine screening of DMD patients in Indonesia. This is also the first study showing the potential applicability of exon skipping therapy in the majority of DMD cases in the country.

Published

2023

4. Mutation spectrum analysis of DMD gene in Indonesian Duchenne and Becker muscular dystrophy patients [version 3; peer review: 2 approved]

Author

Kristy Iskandar, Sunartini Hapsara, Chun Ping Liu, Rusdy Ghazali Malueka, Ery Kus Dwianingsih, Gunadi, Masafumi Matsuo, and Poh San Lai

Subjects

Duchenne muscular dystrophy, Becker muscular dystrophy, DMD gene, mutation analysis, Indonesia, MLPA, eng, Medicine, Science

Abstract

Background Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are allelic disorders caused by mutations in the DMD gene. The full mutation spectrum of the DMD gene in Indonesian patients is currently unknown. Mutation-specific therapies are currently being developed, such as exon skipping or stop codon read-through therapy. This study was conducted with the aim of identifying the mutation spectrum of the DMD gene in Indonesia to guide future development and application of feasible therapeutic strategies. Methods This study is a cross sectional study that enrolled 43 male patients with a clinical suspicion of DMD or BMD. Multiplex ligation-dependent probe amplification (MLPA) reaction was performed to screen for the common mutations in the DMD gene. Results Out of 43 subjects, deletions accounted for 69.77% (n=30) cases, while duplications were found in 11.63% (n=5) cases. One novel duplication spanning exons 2 to 62 was identified. Deletion mutations clustered around the distal (66.67%) and proximal (26.67%) hot spot regions of the DMD gene while duplication mutations were observed solely at the proximal region. Two false positive cases of single exon deletion detected through MLPA were attributed to sequence mutations affecting primer ligation sites, confirming the need to validate all single exon deletions when using this screening method. Analysis of available maternal DNA samples showed that the rate of de novo mutations (48.15%) appears higher than expected in this population. Out of 31 patients who were classified as DMD based on clinical and genotype characterizations, 60.47% (n=26) of cases were suitable for exon skipping therapy. Conclusion This is the first comprehensive study showing the feasibility of implementing the MLPA method for routine screening of DMD patients in Indonesia. This is also the first study showing the potential applicability of exon skipping therapy in the majority of DMD cases in the country.

Published

2023

5. Autosomal dominant Emery-Dreifuss muscular dystrophy caused by a mutation in the lamin A/C gene identified by exome sequencing: a case report

Author

Kristy Iskandar, Sunartini, Farida Niken Astari, Rizki Amalia Gumilang, Nissya Ilma, Ni Putu Shartyanie, Guritno Adistyawan, Grace Tan, Gunadi, and Poh San Lai

Subjects

Emery-Dreifuss muscular dystrophy, Exome sequencing, Laminopathies, LMNA, Case report, Pediatrics, RJ1-570

Abstract

Abstract Background Emery-Dreifuss Muscular Dystrophy (EDMD) is an uncommon genetic disease among the group of muscular dystrophies. EDMD is clinically heterogeneous and resembles other muscular dystrophies. Mutation of the lamin A/C (LMNA) gene, which causes EDMD, also causes many other diseases. There is inter and intrafamilial variability in clinical presentations. Precise diagnosis can help in patient surveillance, especially before they present with cardiac problems. Hence, this paper shows how a molecular work-out by next-generation sequencing can help this group of disorders. Case presentation A 2-year-10-month-old Javanese boy presented to our clinic with weakness in lower limbs and difficulty climbing stairs. The clinical features of the boy were Gower's sign, waddling gait and high CK level. His father presented with elbow contractures and heels, toe walking and weakness of limbs, pelvic, and peroneus muscles. Exome sequencing on this patient detected a pathogenic variant in the LMNA gene (NM_170707: c.C1357T: NP_733821: p.Arg453Trp) that has been reported to cause Autosomal Dominant Emery-Dreifuss muscular dystrophy. Further examination showed total atrioventricular block and atrial fibrillation in the father. Conclusion EDMD is a rare disabling muscular disease that poses a diagnostic challenge. Family history work-up and thorough neuromuscular physical examinations are needed. Early diagnosis is essential to recognize orthopaedic and cardiac complications, improving the clinical management and prognosis of the disease. Exome sequencing could successfully determine pathogenic variants to provide a conclusive diagnosis.

Published

2022

6. Genetics in Ischemic Stroke: Current Perspectives and Future Directions

Author

Ka Zhang, Shaun S. E. Loong, Linus Z. H. Yuen, Narayanaswamy Venketasubramanian, Hui-Lin Chin, Poh San Lai, and Benjamin Y. Q. Tan

Subjects

genetics, ischemic stroke, stroke recovery, genome-wide association studies (GWASs), pharmacogenetics, pharmacogenomics, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Ischemic stroke is a heterogeneous condition influenced by a combination of genetic and environmental factors. Recent advancements have explored genetics in relation to various aspects of ischemic stroke, including the alteration of individual stroke occurrence risk, modulation of treatment response, and effectiveness of post-stroke functional recovery. This article aims to review the recent findings from genetic studies related to various clinical and molecular aspects of ischemic stroke. The potential clinical applications of these genetic insights in stratifying stroke risk, guiding personalized therapy, and identifying new therapeutic targets are discussed herein.

Published

2023

7. Mutation spectrum analysis of DMD gene in Indonesian Duchenne and Becker muscular dystrophy patients [version 2; peer review: 1 approved, 1 approved with reservations]

Author

Ery Kus Dwianingsih, Kristy Iskandar, Sunartini Hapsara, Chun Ping Liu, Rusdy Ghazali Malueka, . Gunadi, Masafumi Matsuo, and Poh San Lai

Subjects

Research Article, Articles, Duchenne muscular dystrophy, Becker muscular dystrophy, DMD gene, mutation analysis, Indonesia, MLPA

Abstract

Background: Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are allelic disorders caused by mutations in the DMD gene. The full mutation spectrum of the DMD gene in Indonesian patients is currently unknown. Mutation-specific therapies are currently being developed, such as exon skipping or stop codon read-through therapy. This study was conducted with the aim of identifying the mutation spectrum of the DMD gene in Indonesia to guide future development and application of feasible therapeutic strategies. Methods: This study is a cross sectional study that enrolled 43 male patients with a clinical suspicion of DMD or BMD. Multiplex ligation-dependent probe amplification (MLPA) reaction was performed to screen for the common mutations in the DMD gene. Results: Out of 43 subjects, deletions accounted for 69.77% (n=30) cases, while duplications were found in 11.63% (n=5) cases. One novel duplication spanning exons 2 to 62 was identified. Deletion mutations clustered around the distal (66.67%) and proximal (26.67%) hot spot regions of the DMD gene while duplication mutations were observed solely at the proximal region. Two false positive cases of single exon deletion detected through MLPA were attributed to sequence mutations affecting primer ligation sites, confirming the need to validate all single exon deletions when using this screening method. Analysis of available maternal DNA samples showed that the rate of de novo mutations (48.15%) appears higher than expected in this population. Out of 31 patients who were classified as DMD based on clinical and genotype characterizations, 60.47% (n=26) of cases were suitable for exon skipping therapy. Conclusion: This is the first comprehensive study showing the feasibility of implementing the MLPA method for routine screening of DMD patients in Indonesia. This is also the first study showing the potential applicability of exon skipping therapy in the majority of DMD cases in the country.

Published

2023

8. P220: A de novo Xq13.2-13.3 duplication associated with non-syndromic intellectual disability

Author

Grace Tan, Chun-Ping Liu, and Poh-San Lai

Subjects

Genetics, QH426-470, Medicine

Published

2023

9. Blending oxytocin and dopamine with everyday creativity

Author

Anne Chong, Serenella Tolomeo, Yue Xiong, Dario Angeles, Mike Cheung, Benjamin Becker, Poh San Lai, Zhen Lei, Fabio Malavasi, Qianzi Tang, Soo Hong Chew, and Richard P. Ebstein

Subjects

Medicine, Science

Abstract

Abstract Converging evidence suggests that oxytocin (OT) is associated with creative thinking (CT) and that release of OT depends on ADP ribosyl-cyclases (CD38 and CD157). Neural mechanisms of CT and OT show a strong association with dopaminergic (DA) pathways, yet the link between CT and CD38, CD157, dopamine receptor D2 (DRD2) and catechol-O-methyltransferase (COMT) peripheral gene expression remain inconclusive, thus limiting our understanding of the neurobiology of CT. To address this issue, two principal domains of CT, divergent thinking (AUT), were assessed. In men, both AUT is associated with gene expression of CD38, CD157, and their interaction CD38 × CD157. There were no significant associations for DA expression (DRD2, COMT, DRD2 × COMT) on both CT measures. However, analysis of the interactions of OT and DA systems reveal significant interactions for AUT in men. The full model explained a sizable 39% of the variance in females for the total CT score. The current findings suggest that OT and DA gene expression contributed significantly to cognition and CT phenotype. This provides the first empirical foundation of a more refined understanding of the molecular landscape of CT.

Published

2021

10. Mutation spectrum analysis of DMD gene in Indonesian Duchenne and Becker muscular dystrophy patients [version 1; peer review: 1 approved with reservations]

Author

Ery Kus Dwianingsih, Kristy Iskandar, Sunartini Hapsara, Chun Ping Liu, Rusdy Ghazali Malueka, . Gunadi, Masafumi Matsuo, and Poh San Lai

Subjects

Research Article, Articles, Duchenne muscular dystrophy, Becker muscular dystrophy, DMD gene, mutation analysis, Indonesia, MLPA

Abstract

Background: Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are allelic disorders caused by mutations in the DMD gene. The full mutation spectrum of the DMD gene in Indonesian patients is currently unknown. Mutation-specific therapies are currently being developed, such as exon skipping or stop codon read-through therapy. This study was conducted with the aim of identifying the mutation spectrum of the DMD gene in Indonesia to guide future development and application of feasible therapeutic strategies. Methods: This study is a cross sectional study that enrolled 43 male patients with a clinical suspicion of DMD or BMD. Multiplex ligation-dependent probe amplification (MLPA) reaction was performed to screen for the common mutations in the DMD gene. Results: Out of 43 subjects, deletions accounted for 69.77% (n=30) cases, while duplications were found in 11.63% (n=5) cases. One novel duplication spanning exons 2 to 62 was identified. Deletion mutations clustered around the distal (66.67%) and proximal (26.67%) hot spot regions of the DMD gene while duplication mutations were observed solely at the proximal region. Two false positive cases of single exon deletion detected through MLPA were attributed to sequence mutations affecting primer ligation sites, confirming the need to validate all single exon deletions when using this screening method. Analysis of available maternal DNA samples showed that the rate of de novo mutations (48.15%) appears higher than expected in this population. Out of 31 patients who were classified as DMD based on clinical and genotype characterizations, 60.47% (n=26) of cases were suitable for exon skipping therapy. Conclusion: This is the first comprehensive study showing the feasibility of implementing the MLPA method for routine screening of DMD patients in Indonesia. This is also the first study showing the potential applicability of exon skipping therapy in the majority of DMD cases in the country.

Published

2022

11. J’Accuse….. Or The Plight of pro-bono Volunteer Scientists in Academic Publishing

Author

Juergen K. V. Reichardt, George P. Patrinos, Poh San Lai, and Giuseppe Novelli

Subjects

Medicine, Genetics, QH426-470

Published

2022

12. Germline genome modification through novel political, ethical, and social lenses.

Author

Vicki Xafis, G Owen Schaefer, Markus K Labude, Yujia Zhu, Soren Holm, Roger Sik-Yin Foo, Poh San Lai, and Ruth Chadwick

Subjects

Genetics, QH426-470

Abstract

Much has been written about gene modifying technologies (GMTs), with a particularly strong focus on human germline genome editing (HGGE) sparked by its unprecedented clinical research application in 2018, shocking the scientific community. This paper applies political, ethical, and social lenses to aspects of HGGE to uncover previously underexplored considerations that are important to reflect on in global discussions. By exploring 4 areas-(1) just distribution of HGGE benefits through a realist lens; (2) HGGE through a national interest lens; (3) "broad societal consensus" through a structural injustice lens; and (4) HGGE through a scientific trustworthiness lens-a broader perspective is offered, which ultimately aims to enrich further debates and inform well-considered solutions for developments in this field. The application of these lenses also brings to light the fact that all discussions about scientific developments involve a conscious or unconscious application of a lens that shapes the direction of our thinking.

Published

2021

13. The analysis of DMD gene deletions by multiplex PCR in Indonesian DMD/BMD patients: the era of personalized medicine

Author

Kristy Iskandar, Ery Kus Dwianingsih, Linda Pratiwi, Alvin Santoso Kalim, Hasna Mardhiah, Alifiani H. Putranti, Dian K. Nurputra, Agung Triono, Elisabeth S. Herini, Rusdy G. Malueka, Gunadi, Poh San Lai, and Sunartini

Subjects

Duchenne/Becker muscular dystrophy, DMD gene deletion, Exon skipping therapy, Multiplex PCR, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective Duchenne/Becker muscular dystrophy (DMD/BMD) is the most common genetic neuromuscular disease in children, resulting from a defect in the DMD gene located on Xp21.2. The new emerging treatment using exon skipping strategy is tailored to specific mutations, thus molecular diagnostics are particularly important. This study aimed to detect the DMD gene deletion in Indonesian DMD/BMD patients and analyze the potential amenability by exon skipping therapy. Results Thirty-four male patients were enrolled in this study, 23 of them (67.6%) underwent muscle biopsy and showed the absence or partially expressed dystrophin protein in immunohistochemistry staining. All patients had very high serum CK levels (10.529 ± 9.97 IU/L). Multiplex PCR revealed the DMD gene deletions in 15 (44.1%) cases. Seventy-eight percent of deletions were clustered in the hot-spot region of exon 43 to 52. Furthermore, seven (20.5%) patients were potentially amenable to exon skipping treatment. Therefore, multiplex PCR is one feasible method to detect DMD gene deletion in Indonesian DMD/BMD patients that can further determine the potential amenability of exon skipping therapy. In addition, this study is the first report of DMD gene deletion analysis in Indonesia.

Published

2019

14. Association among dispositional mindfulness, self-compassion, and leukocyte telomere length in Chinese adults

Author

Shian-Ling Keng, Onn Siong Yim, Poh San Lai, Soo Hong Chew, and Richard P. Ebstein

Subjects

Leukocyte telomere length, Cellular aging, Mindfulness, Self-compassion, Psychology, BF1-990

Abstract

Abstract Background Whereas meditation training has been purported to support slower cellular aging, little work has explored the association among different facets of dispositional mindfulness, self-compassion, and cellular aging. The present study aimed to examine the relationship between leukocyte telomere length (LTL), an index of cellular aging, dispositional mindfulness, and self-compassion in a sample of Singaporean Chinese adults. Methods One hundred and fifty-eight Chinese adults (mean age = 27.24 years; 63.3% female) were recruited from the community and completed self-report measures assessing dispositional mindfulness, self-compassion, and psychological symptoms, as well as provided blood samples for analyses of LTL. Multiple regression analyses were conducted to examine the role of trait mindfulness and self-compassion in predicting LTL, taking into consideration potential covariates such as chronological age and psychological symptoms. Results Results showed that nonreactivity, one of the five facets of dispositional mindfulness, was significantly associated with LTL, after controlling for chronological age. There was also a trend for dispositional mindfulness, self-compassion, and their selected facets (i.e., nonjudging, common humanity, and de-identification) to each be associated with longer LTL. Conclusions Overall, the findings provide preliminary support for the association among aspects of dispositional mindfulness, self-compassion, and aging. In particular, individuals high on nonreactivity experience slower aging at the cellular level, likely through engaging in more adaptive coping mechanisms.

Published

2019

15. Effect of semaphorin 3C gene variants in multifactorial Hirschsprung disease

Author

Gunadi, Fiko Ryantono, Raman Sethi, Marcellus, Alvin Santoso Kalim, Priscillia Imelda, Devy Melati, Susan Simanjaya, William Widitjiarso, Ririd Tri Pitaka, Nur Arfian, Kristy Iskandar, Akhmad Makhmudi, and Poh San Lai

Subjects

Medicine (General), R5-920

Abstract

Objective Cluster genes, specifically the class 3 semaphorins ( SEMA3 ) including SEMA3C , have been associated with the development of Hirschsprung disease (HSCR) in Caucasian populations. We aimed to screen for rare and common variants in SEMA3C in Indonesian patients with HSCR. Methods In this prospective clinical study, we analyzed SEMA3C gene variants in 55 patients with HSCR through DNA sequencing and bioinformatics analyses. Results Two variants in SEMA3C were found: p.Val337Met (rs1527482) and p.Val579 = (rs2272351). The rare variant rs1527482 (A) was significantly overrepresented in our HSCR patients (9.1%) compared with South Asian controls in the 1000 Genomes (4.7%) and Exome Aggregation Consortium (ExAC; 3.5%) databases. Our analysis using bioinformatics tools predicted this variant to be evolutionarily conserved and damaging to SEMA3C protein function. Although the frequency of the other variant, rs2272351 (G), also differed significantly in Indonesian patients with HSCR (27.3%) from that in South Asian controls in 1000 Genomes (6.2%) and ExAC (4.6%), it is a synonymous variant and not likely to affect protein function. Conclusions This is the first comprehensive report of SEMA3C screening in patients of Asian ancestry with HSCR and identifies rs1527482 as a possible disease risk allele in this population.

Published

2021

16. PYCR1 Levels Track with Premature and Chronological Skin Aging

Author

Kortessa Sotiropoulou, Saniye Yumlu, Tomoko Hirano, Michael Maier, Abigail Loh, Peh Fern Ong, Onn Siong Yim, Chunping Liu, Emmanuel Vial, Umut Altunoğlu, Sheela Nampoothiri, Deepthi de Silva, Björn Fischer-Zirnsak, Hülya Kayserili, Poh San Lai, Oliver Dreesen, Kenji Kabashima, Uwe Kornak, Nathalie Escande-Beillard, and Bruno Reversade

Abstract

De Barsy syndrome is a recessive progeroid disease classified under the group of cutis laxa syndromes. The disease is attributed to loss-of-function mutations inPYCR1orALDH18A1, leading to premature skin aging. Here we report fivePYCR1pathogenic alleles and a mouse knockout model of the disease. Through these investigations, we have confirmed the key role of PYCR1 in preventing dermal thinning and other connective tissue abnormalities. However, it remains unknown whether endogenous PYCR1 levels undergo changes during normal aging. To address this query, we examined its levels in cultured human cutaneous fibroblasts subjected to induced or replicative senescence. In both instances, PYCR1 levels dropped and correlated with the loss of proliferative capacity. Furthermore, we validated the relevance of these findingsin vivo, by comparing young and chronologically aged human skin, and found that the levels of PYCR1 in the dermis, but not the epidermis, significantly decreased with age. Our results confirm that the loss of PYCR1 is a driver of human skin aging and that its levels in healthy individuals can serve as a biomarker for connective tissues undergoing normal chronological aging.

Published

2023

17. Reducing the Diagnostic Odyssey for Patients with Neuromuscular Disorders (NMDs)

Author

Travis Yong Han Tan, Xin Xiang Lee, Ethan Kee Kiat Leo, Stacey Kiat Hong Tay, Chun Ping Liu, Grace Li Xuan Tan, and Poh San Lai

Published

2023

18. Novel Autoantibodies in Idiopathic Small Fiber Neuropathy

Author

Ti Myen Tan, Herbert Schwarz, Nur Hafiza Ismail, Jonathan J. Y. Ong, Poh San Lai, Vivek Sharma, Anselm Mak, Hiu Yi Wong, Bharatendu Chandra, Chi Hsien Tan, Alison Ying Ying Ng, Einar Wilder-Smith, Amanda C.Y. Chan, Yao Feng Chong, Hyungwon Choi, Kay W.P. Ng, Yee Cheun Chan, Nurul H Rutt, Jennifer H M Hung, Joy Vijayan, and Hock Luen Teoh

Subjects

Adult, Male, Myxovirus Resistance Proteins, Small Fiber Neuropathy, 610 Medicine & health, medicine.disease_cause, Autoantigens, Autoimmunity, Cohort Studies, src Homology Domains, Antigen, Humans, Medicine, Aged, Autoantibodies, business.industry, Keratin-8, Microfilament Proteins, Autoantibody, Middle Aged, Fold change, Subtyping, Neurology, Immunology, Protein microarray, Female, Neurology (clinical), 610 Medizin und Gesundheit, business, Validation cohort

Abstract

OBJECTIVE Small fiber neuropathy (SFN) is clinically and etiologically heterogeneous. Although autoimmunity has been postulated to be pathophysiologically important in SFN, few autoantibodies have been described. We aimed to identify autoantibodies associated with idiopathic SFN (iSFN) by a novel high-throughput protein microarray platform that captures autoantibodies expressed in the native conformational state. METHODS Sera from 58 SFN patients and 20 age- and gender-matched healthy controls (HCs) were screened against >1,600 immune-related antigens. Fluorescent unit readout and postassay imaging were performed, followed by composite data normalization and protein fold change (pFC) analysis. Analysis of an independent validation cohort of 33 SFN patients against the same 20 HCs was conducted to identify reproducible proteins in both cohorts. RESULTS Nine autoantibodies were screened with statistical significance and pFC criteria in both cohorts, with at least 50% change in serum levels. Three proteins showed consistently high fold changes in main and validation cohorts: MX1 (FC��=���2.99 and 3.07, respectively, p��=���0.003, q��=���0.076), DBNL (FC��=��2.11 and 2.16, respectively, p��=���0.009, q��

Published

2021

19. Correction to: Association among dispositional mindfulness, self-compassion, and leukocyte telomere length in Chinese adults

Author

Shian-Ling Keng, Onn Siong Yim, Poh San Lai, Soo Hong Chew, and Richard P. Ebstein

Subjects

Psychology, BF1-990

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2020

20. Ethical considerations of preconception and prenatal gene modification in the embryo and fetus

Author

Timothy Nicholas Lee, Poh San Lai, Citra Nurfarah Zaini Mattar, and Markus K. Labude

Subjects

Gene Editing, Gene Modification, Genome, Human, Alternative therapy, education, Rehabilitation, Psychological intervention, Obstetrics and Gynecology, Embryo, Mammalian, Preclinical data, Scientific evidence, Fetus, Germ Cells, Reproductive Medicine, Pregnancy, Child, Preschool, Ethical concerns, Humans, Female, Engineering ethics, Early childhood, Psychology

Abstract

The National Academies of Sciences and Medicine 2020 consensus statement advocates the reinstatement of research in preconception heritable human genome editing (HHGE), despite the ethical concerns that have been voiced about interventions in the germline, and outlines criteria for its eventual clinical application to address monogenic disorders. However, the statement does not give adequate consideration to alternative technologies. Importantly, it omits comparison to fetal gene therapy (FGT), which involves gene modification applied prenatally to the developing fetus and which is better researched and less ethically contentious. While both technologies are applicable to the same monogenic diseases causing significant prenatal or early childhood morbidity, the benefits and risks of HHGE are distinct from FGT though there are important overlaps. FGT has the current advantage of a wealth of robust preclinical data, while HHGE is nascent technology and its feasibility for specific diseases still requires scientific proof. The ethical concerns surrounding each are unique and deserving of further discussion, as there are compelling arguments supporting research and eventual clinical translation of both technologies. In this Opinion, we consider HHGE and FGT through technical and ethical lenses, applying common ethical principles to provide a sense of their feasibility and acceptability. Currently, FGT is in a more advanced position for clinical translation and may be less ethically contentious than HHGE, so it deserves to be considered as an alternative therapy in further discussions on HHGE implementation.

Published

2021

21. Expanding the genetic causes of small-fiber neuropathy: SCN genes and beyond

Author

Amanda C. Y. Chan, Shivaram Kumar, Grace Tan, Hiu Yi Wong, Jonathan J. Y. Ong, Bharatendu Chandra, Hua Huang, Vijay Kumar Sharma, and Poh San Lai

Subjects

Cellular and Molecular Neuroscience, Physiology, Physiology (medical), Neurology (clinical)

Abstract

Small-fiber neuropathy (SFN) is a disorder that exclusively affects the small nerve fibers, sparing the large nerve fibers. Thinly myelinated Aδ-fibers and unmyelinated C-fibers are damaged, leading to development of neuropathic pain, thermal dysfunction, sensory symptoms, and autonomic disturbances. Although many SFNs are secondary and due to immunological causes or metabolic disturbances, the etiology is unknown in up to half of the patients. Over the years, this proportion of "idiopathic SFN" has decreased, as familial and genetic causes have been discovered, thus shifting a proportion of once "idiopathic" cases to the genetic category. After the discovery of SCN9A-gene variants in 2012, SCN10A and SCN11A variants have been found to be pathogenic in SFN. With improved accessibility of SFN diagnostic tools and genetic tests, many non-SCN variants and genetically inherited systemic diseases involving the small nerve fibers have also been described, but only scattered throughout the literature. There are 80 SCN variants described as causing SFN, 8 genes causing hereditary sensory autonomic neuropathies (HSAN) described with pure SFN, and at least 7 genes involved in genetically inherited systemic diseases associated with SFN. This systematic review aims to consolidate and provide an updated overview on the genetic variants of SFN to date---SCN genes and beyond. Awareness of these genetic causes of SFN is imperative for providing treatment directions, prognostication, and management of expectations for patients and their health-care providers.

Published

2022

22. Ethics and regulatory considerations for the clinical translation of somatic cell human epigenetic editing

Author

Ruth Chadwick, Nikolajs Zeps, Tamra Lysaght, Poh San Lai, Jeremy Sugarman, Roger Foo, Simona Giordano, Alexandre Erler, G. Owen Schaefer, Wei Leong Chew, and Vicki Xafis

Subjects

Epigenomics, Gene Editing, 0301 basic medicine, Forum, Somatic cell, Translation (biology), Cell Biology, Computational biology, Epigenome, Biology, Biochemistry, Somatic psychology, Variety (cybernetics), Translational Research, Biomedical, 03 medical and health sciences, Germ Cells, Phenotype, 030104 developmental biology, 0302 clinical medicine, Genetics, Humans, Epigenetics, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Altering the human epigenome with gene-editing technology in attempt to treat a variety of diseases and conditions seems scientifically feasible. We explore some of the ethical and regulatory issues related to the clinical translation of human epigenetic editing arguing that such approaches should be considered akin to somatic therapies.

Published

2021

23. Mutation spectrum of RB1 mutations in retinoblastoma cases from Singapore with implications for genetic management and counselling.

Author

Swati Tomar, Raman Sethi, Gangadhara Sundar, Thuan Chong Quah, Boon Long Quah, and Poh San Lai

Subjects

Medicine, Science

Abstract

Retinoblastoma (RB) is a rare childhood malignant disorder caused by the biallelic inactivation of RB1 gene. Early diagnosis and identification of carriers of heritable RB1 mutations can improve disease outcome and management. In this study, mutational analysis was conducted on fifty-nine matched tumor and peripheral blood samples from 18 bilateral and 41 unilateral unrelated RB cases by a combinatorial approach of Multiplex Ligation-dependent Probe Amplification (MLPA) assay, deletion screening, direct sequencing, copy number gene dosage analysis and methylation assays. Screening of both blood and tumor samples yielded a mutation detection rate of 94.9% (56/59) while only 42.4% (25/59) of mutations were detected if blood samples alone were analyzed. Biallelic mutations were observed in 43/59 (72.9%) of tumors screened. There were 3 cases (5.1%) in which no mutations could be detected and germline mutations were detected in 19.5% (8/41) of unilateral cases. A total of 61 point mutations were identified, of which 10 were novel. There was a high incidence of previously reported recurrent mutations, occurring at 38.98% (23/59) of all cases. Of interest were three cases of mosaic RB1 mutations detected in the blood from patients with unilateral retinoblastoma. Additionally, two germline mutations previously reported to be associated with low-penetrance phenotypes: missense-c.1981C>T and splice variant-c.607+1G>T, were observed in a bilateral and a unilateral proband, respectively. These findings have implications for genetic counselling and risk prediction for the affected families. This is the first published report on the spectrum of mutations in RB patients from Singapore and shows that further improved mutation screening strategies are required in order to provide a definitive molecular diagnosis for every case of RB. Our findings also underscore the importance of genetic testing in supporting individualized disease management plans for patients and asymptomatic family members carrying low-penetrance, germline mosaicism or heritable unilateral mutational phenotypes.

Published

2017

24. Vulnerability and the Ethics of Human Germline Genome Editing

Author

Markus K. Labude, Vicki Xafis, Poh San Lai, and Catherine Mills

Subjects

Gene Editing, Germ Cells, Genome, Human, Genetics, Humans, CRISPR-Cas Systems, Biotechnology, Ethics, Research

Abstract

The concept of vulnerability has played an important role in theoretical bioethics as well as in numerous authoritative guidelines on research ethics. The concept helps to identify situations in which research participants and other individuals may be at a heightened risk of experiencing harm. However, existing guidance documents on the ethics of human germline gene editing largely fail to make any reference to considerations of vulnerability. In this article, we discuss this oversight and we highlight the role that vulnerability can play in ethical debates about human heritable genome editing. Future guidance documents on germline gene editing should pay attention to considerations of vulnerability and reference these appropriately.

Published

2022

25. The orphan nuclear receptor <scp> NR0B2 </scp> could be a novel susceptibility locus associated with microsatellite‐stable, <scp> APC </scp> mutation‐negative early‐onset colorectal carcinomas with metabolic manifestation

Author

Raman Sethi, Michelle Lo, Carol Loi, Swati Tomar, Grace K. Tan, Peh Yean Cheah, Emile Tan, Kuen Kuen Lam, Choong Leong Tang, and Poh San Lai

Subjects

Sanger sequencing, Proband, Cancer Research, Colorectal cancer, Biology, medicine.disease, Germline, Frameshift mutation, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Germline mutation, 030220 oncology & carcinogenesis, Genetics, medicine, symbols, Cancer research, Haploinsufficiency, Exome sequencing

Abstract

Colorectal cancer (CRC) is a high incidence cancer and major cause of cancer mortality. Though disease-causing tumor suppressors for major syndromes are well characterized, about 10% of CRC is familial but without mutations in known tumor suppressors. We exhaustively screened 100 polyposis families for APC germline mutations and identified 13, which are APC mutation-negative, microsatellite-stable (MSS), and with undetectable mutation in known tumor suppressors. Whole exome sequencing in three probands uncovered two with germline frameshift NR0B2 mutations, c.293_301delTTGGGTTGGinsAC and c.227delT. Sanger Sequencing identified a third proband with NR0B2 c.157_166delCATCGCACCT frameshift mutation. All three mutations deleted the C-terminus activation/repression domain of NR0B2, thus are loss-of-function mutations. Real-time RT-PCR performed on tumor and matched mucosa of one patient revealed that NR0B2 downstream targets, SMAD3 was derepressed while GLI1 was downregulated in the colonic mucosa compared to healthy controls. Truncated NR0B2 molecule was predicted to have weakened binding with interacting partners SMAD3, GLI1, BCL2, and RXRα, implying perturbation of TGF-β, Hedgehog, anti-apoptotic and nuclear hormone receptor signaling pathways. Immunostaining also revealed nuclear retention of the most severely truncated NR0B2 molecule compared to the wildtype. Microsatellite and sequencing analysis did not detect loss of wildtype allele in probands' tumors. The patient who acquired somatic KRAS mutation progressed rapidly whist the other two patients manifested with late-onset obesity and diabetes. We propose that haploinsufficiency of NR0B2 is associated with a novel CRC syndrome with metabolic phenotypes.

Published

2020

26. Singapore Undiagnosed Disease Program: Genomic Analysis aids Diagnosis and Clinical Management

Author

Breana Cham, Jiin Ying Lim, Wendy K.M. Liew, Yuen-Ming Tan, Jyn-Ling Kuan, Bruno Reversades, Raman Sethi, Alvin Yu Jin Ng, Nathalie Escande-Beillard, Alexander Lezhava, Sumanty Tohari, Heming Wei, Arun George Devasia, Deepa Subramanian, Sylvia Kam, Woei Kang Liew, Min Xie, Kanika Jain, Saumya Shekhar Jamuar, Hai-Yang Law, Ee Shien Tan, Nilesh R. Tawari, Swati Tomar, Ene-Choo Tan, Ivy Ng, Carine Bonnard, Grace Lin, Angeline Lai, Chew Yin Jasmine Goh, Perumal Dharuman, Poh San Lai, Arthi Shanmugasundaram, Huilin Chin, Neha Singh Bhatia, Denise L.M. Goh, Maggie Brett, Célia Bosso-Lefèvre, Grace K. Tan, Teck Wah Ting, Roger Foo, Sarah B Ng, Cheuk Ka Tong, Byrappa Venkatesh, and Zenia Tiang

Subjects

Adult, Male, Pediatrics, medicine.medical_specialty, Adolescent, Developmental Disabilities, Genetic counseling, Psychological intervention, Disease, Undiagnosed Diseases, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Abnormalities, Multiple, Child, Exome sequencing, 030304 developmental biology, Whole genome sequencing, Singapore, 0303 health sciences, business.industry, High-Throughput Nucleotide Sequencing, Infant, medicine.disease, Dysplasia, Child, Preschool, Pediatrics, Perinatology and Child Health, Female, business, 030217 neurology & neurosurgery, AIDS diagnosis, Rare disease

Abstract

ObjectiveUse next-generation sequencing (NGS) technology to improve our diagnostic yield in patients with suspected genetic disorders in the Asian setting.DesignA diagnostic study conducted between 2014 and 2019 (and ongoing) under the Singapore Undiagnosed Disease Program. Date of last analysis was 1 July 2019.SettingInpatient and outpatient genetics service at two large academic centres in Singapore.PatientsInclusion criteria: patients suspected of genetic disorders, based on abnormal antenatal ultrasound, multiple congenital anomalies and developmental delay. Exclusion criteria: patients with known genetic disorders, either after clinical assessment or investigations (such as karyotype or chromosomal microarray).InterventionsUse of NGS technology—whole exome sequencing (WES) or whole genome sequencing (WGS).Main outcome measures(1) Diagnostic yield by sequencing type, (2) diagnostic yield by phenotypical categories, (3) reduction in time to diagnosis and (4) change in clinical outcomes and management.ResultsWe demonstrate a 37.8% diagnostic yield for WES (n=172) and a 33.3% yield for WGS (n=24). The yield was higher when sequencing was conducted on trios (40.2%), as well as for certain phenotypes (neuromuscular, 54%, and skeletal dysplasia, 50%). In addition to aiding genetic counselling in 100% of the families, a positive result led to a change in treatment in 27% of patients.ConclusionGenomic sequencing is an effective method for diagnosing rare disease or previous ‘undiagnosed’ disease. The clinical utility of WES/WGS is seen in the shortened time to diagnosis and the discovery of novel variants. Additionally, reaching a diagnosis significantly impacts families and leads to alteration in management of these patients.

Published

2020

27. Design of Split Proximity Circuit as a Plug-and-Play Translator for Point Mutation Discrimination

Author

Poh San Lai, Lin-Yue Lanry Yung, and Yan Shan Ang

Subjects

Genetics, Plug and play, Chemistry, Point mutation, 010401 analytical chemistry, DNA, Glucosephosphate Dehydrogenase, 010402 general chemistry, Polymerase Chain Reaction, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, law.invention, MicroRNAs, Limit of Detection, law, Genetic variation, Humans, Point Mutation, Disease biomarker, Polymerase chain reaction

Abstract

Point mutations are a common form of genetic variation and have been identified as important disease biomarkers. Conventional methods for analyzing point mutations, e.g., polymerase chain reaction (PCR), are based on differences in thermal stability of the DNA duplex, which require extensive optimization of the reaction condition and nontrivial design of sequence-selective primers. This motivated the design of molecular translators to convert molecular inputs into generic output sequences, which allows for the target recognition and signal generation regions to be designed independently. In this work, we propose a translator design based on the concept of split proximity circuit (SPC) to achieve both high sequence selectivity and assay robustness using a universal reaction condition, i.e., room temperature and constant ionic concentration. We discussed the design aspects of the SPC recognition regions and demonstrated its plug-and-play capability to discriminate different point mutations for both DNA (seven G6PD mutations) and RNA (let-7 microRNA family members) targets while retaining the same signal generation region. Despite its simple design and nonstringent assay condition requirements, the SPC retained good analytical performance to detect subnanomolar target concentration within a reasonable time of an hour.

Published

2020

28. Spinal Muscular Atrophy: Evaluation of New Emerging Methods for Carrier Screening and Diagnosis

Author

Joylynn Sim, Jinghan Xie, Grace Li Xuan Tan, Chun Ping Liu, and Poh San Lai

Published

2022

29. The analysis of DMD gene deletions by multiplex PCR in Indonesian DMD/BMD patients: the era of personalized medicine

Author

Linda Pratiwi, Ery Kus Dwianingsih, Gunadi, Alifiani Hikmah Putranti, Agung Triono, Dian Kesumapramudya Nurputra, Sunartini, Poh San Lai, Rusdy Ghazali Malueka, Alvin Santoso Kalim, Elisabeth Siti Herini, Kristy Iskandar, and Hasna Mardhiah

Subjects

Male, 0301 basic medicine, Pathology, lcsh:Medicine, Dystrophin, Duchenne/Becker muscular dystrophy, Exon, 0302 clinical medicine, Precision Medicine, Muscular dystrophy, Child, lcsh:QH301-705.5, Exon skipping therapy, medicine.diagnostic_test, biology, Exons, General Medicine, DMD gene deletion, Research Note, Child, Preschool, musculoskeletal diseases, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, Neuromuscular disease, Adolescent, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Multiplex polymerase chain reaction, medicine, Humans, lcsh:Science (General), Muscle biopsy, business.industry, lcsh:R, Infant, Multiplex PCR, medicine.disease, Molecular diagnostics, Exon skipping, Muscular Dystrophy, Duchenne, 030104 developmental biology, lcsh:Biology (General), Indonesia, biology.protein, business, Multiplex Polymerase Chain Reaction, Gene Deletion, 030217 neurology & neurosurgery, lcsh:Q1-390

Abstract

Objective Duchenne/Becker muscular dystrophy (DMD/BMD) is the most common genetic neuromuscular disease in children, resulting from a defect in the DMD gene located on Xp21.2. The new emerging treatment using exon skipping strategy is tailored to specific mutations, thus molecular diagnostics are particularly important. This study aimed to detect the DMD gene deletion in Indonesian DMD/BMD patients and analyze the potential amenability by exon skipping therapy. Results Thirty-four male patients were enrolled in this study, 23 of them (67.6%) underwent muscle biopsy and showed the absence or partially expressed dystrophin protein in immunohistochemistry staining. All patients had very high serum CK levels (10.529 ± 9.97 IU/L). Multiplex PCR revealed the DMD gene deletions in 15 (44.1%) cases. Seventy-eight percent of deletions were clustered in the hot-spot region of exon 43 to 52. Furthermore, seven (20.5%) patients were potentially amenable to exon skipping treatment. Therefore, multiplex PCR is one feasible method to detect DMD gene deletion in Indonesian DMD/BMD patients that can further determine the potential amenability of exon skipping therapy. In addition, this study is the first report of DMD gene deletion analysis in Indonesia.

Published

2019

30. Association among dispositional mindfulness, self-compassion, and leukocyte telomere length in Chinese adults

Author

Soo Hong Chew, Onn Siong Yim, Poh San Lai, Richard P. Ebstein, and Shian-Ling Keng

Subjects

Adult, Male, animal structures, Mindfulness, media_common.quotation_subject, lcsh:BF1-990, Cellular aging, Dispositional mindfulness, 03 medical and health sciences, 0302 clinical medicine, Asian People, Adaptation, Psychological, Humans, 030212 general & internal medicine, Meditation, Association (psychology), Self-compassion, General Psychology, media_common, Psychological research, Correction, Chinese adults, General Medicine, Telomere, Leukocyte telomere length, 030227 psychiatry, lcsh:Psychology, Trait, Female, Self Report, Empathy, Psychology, Personality, Clinical psychology

Abstract

Background Whereas meditation training has been purported to support slower cellular aging, little work has explored the association among different facets of dispositional mindfulness, self-compassion, and cellular aging. The present study aimed to examine the relationship between leukocyte telomere length (LTL), an index of cellular aging, dispositional mindfulness, and self-compassion in a sample of Singaporean Chinese adults. Methods One hundred and fifty-eight Chinese adults (mean age = 27.24 years; 63.3% female) were recruited from the community and completed self-report measures assessing dispositional mindfulness, self-compassion, and psychological symptoms, as well as provided blood samples for analyses of LTL. Multiple regression analyses were conducted to examine the role of trait mindfulness and self-compassion in predicting LTL, taking into consideration potential covariates such as chronological age and psychological symptoms. Results Results showed that nonreactivity, one of the five facets of dispositional mindfulness, was significantly associated with LTL, after controlling for chronological age. There was also a trend for dispositional mindfulness, self-compassion, and their selected facets (i.e., nonjudging, common humanity, and de-identification) to each be associated with longer LTL. Conclusions Overall, the findings provide preliminary support for the association among aspects of dispositional mindfulness, self-compassion, and aging. In particular, individuals high on nonreactivity experience slower aging at the cellular level, likely through engaging in more adaptive coping mechanisms.

Published

2019

31. Nested PCR Amplification Secures DNA Template Quality and Quantity in Real-time mCOP-PCR Screening for SMA

Author

Yogik Onky Silvana Wijaya, Emma Tabe Eko Niba, Rochmah, Mawaddah Ar, Harahap, Nur Imma Fatimah, Awano, Hiroyuki, Takeshima, Yasuhiro, Saito, Toshio, Saito, Kayoko, Takeuchi, Atsuko, Poh San Lai, Bouike, Yoshihiro, Nishio, Hisahide, and Shinohara, Masakazu

Published

2019

32. Spinal Muscular Atrophy: Advanced Version of Screening System with Real-Time mCOP-PCR and PCR-RFLP for SMN1 Deletion

Author

Emma Tabe Eko Niba, Rochmah, Mawaddah Ar, Harahap, Nur Imma Fatimah, Awano, Hiroyuki, Morioka, Ichiro, Iijima, Kazumoto, Takeshima, Yasuhiro, Saito, Toshio, Saito, Kayoko, Takeuchi, Atsuko, Poh San Lai, Bouike, Yoshihiro, Matsuo, Masafumi, Nishio, Hisahide, and Shinohara, Masakazu

Subjects

nervous system diseases

Published

2019

33. Spinal Muscular Atrophy: New Screening System with Real-Time mCOP-PCR and PCR-RFLP for SMN1 Deletion

Author

Emma Tabe Eko Niba, Rochmah, Mawaddah Ar, Harahap, Nur Imma Fatimah, Awano, Hiroyuki, Morioka, Ichiro, Iijima, Kazumoto, Takeshima, Yasuhiro, Saito, Toshio, Saito, Kayoko, Takeuchi, Atsuko, Poh San Lai, Bouike, Yoshihiro, Matsuo, Masafumi, Nishio, Hisahide, and Shinohara, Masakazu

Subjects

nervous system diseases

Published

2019

34. Dried Blood Spot Screening System for Spinal Muscular Atrophy with Allele-Specific Polymerase Chain Reaction and Melting Peak Analysis

Author

Dian Kesumapramudya Nurputra, Seiji Yamaguchi, Nur Imma Fatimah Harahap, Mawaddah Ar Rochmah, Hisahide Nishio, Masako Kato, Chisato Tode, Masakazu Shinohara, Yoshihiro Bouike, Yogik Onky Silvana Wijaya, Kentaro Okamoto, Toshio Saito, Tomoyoshi Shiroshita, Emma Tabe Eko Niba, Atsuko Takeuchi, and Poh San Lai

Subjects

0301 basic medicine, Male, Cystic Fibrosis Transmembrane Conductance Regulator, SMN1, Nucleic Acid Denaturation, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, law.invention, Muscular Atrophy, Spinal, 03 medical and health sciences, 0302 clinical medicine, Neonatal Screening, Gene Frequency, law, medicine, Humans, Genetics (clinical), Polymerase chain reaction, Newborn screening, business.industry, Infant, Newborn, General Medicine, Spinal muscular atrophy, DNA, Exons, medicine.disease, SMA, Molecular biology, DNA extraction, Survival of Motor Neuron 1 Protein, nervous system diseases, Dried blood spot, High-Throughput Screening Assays, 030104 developmental biology, 030220 oncology & carcinogenesis, Female, Dried Blood Spot Testing, business, Variants of PCR, Gene Deletion

Abstract

Background and Aim: Spinal muscular atrophy (SMA) is a lower motor neuron disease with autosomal recessive inheritance caused by homozygous SMN1 deletions. Although SMA has been considered as incurable, newly developed drugs improve life prognoses and motor functions of patients. To maximize the efficacy of the drugs, SMA patients should be treated before symptoms become apparent. Thus, newborn screening for SMA is strongly recommended. In this study, we aim to establish a new simple screening system based on DNA melting peak analysis. Materials and Methods: A total of 124 dried blood spot (DBS) on FTA® ELUTE cards (51 SMN1-deleted patients with SMA, 20 carriers, and 53 controls) were punched and subjected to direct amplification of SMN1 and CFTR (reference gene). Melting peak analyses were performed to detect SMN1 deletions from DBS samples. Results: A combination of allele-specific polymerase chain reaction (PCR) and melting peak analyses clearly distinguished the DBS samples with and without SMN1. Compared with the results of fresh blood samples, our new system yielded 100% sensitivity and specificity. The advantages of our system include (1) biosafe collection, transfer, and storage for DBS samples, (2) obviating the need for DNA extraction from DBS preventing contamination, (3) preclusion of fluorescent probes leading to low PCR cost, and (4) fast and high-throughput screening for SMN1 deletions. Conclusion: We demonstrate that our system would be applicable to a real-world newborn screening program for SMA, because our new technology is efficient for use in routine clinical laboratories that do not have highly advanced PCR instruments.

Published

2021

35. Effect of semaphorin 3C gene variants in multifactorial Hirschsprung disease

Author

Ririd Tri Pitaka, Raman Sethi, Priscillia Imelda, Gunadi, Marcellus, Poh San Lai, Nur Arfian, Devy Melati, Alvin Santoso Kalim, Susan Simanjaya, Akhmad Makhmudi, Kristy Iskandar, Fiko Ryantono, and William Widitjiarso

Subjects

0301 basic medicine, Medicine (General), Prospective Clinical Research Report, Hirschsprung disease, Damaging effect on protein function, Disease, Semaphorins, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, R5-920, pathogenic variant, Semaphorin, Medicine, Humans, deleterious conservation score, Genetic Predisposition to Disease, Prospective Studies, Gene, Genetics, business.industry, semaphorin 3C, Biochemistry (medical), Proto-Oncogene Proteins c-ret, Cell Biology, General Medicine, 030104 developmental biology, founder effect, Indonesia, 030220 oncology & carcinogenesis, business, Founder effect

Abstract

Objective Cluster genes, specifically the class 3 semaphorins ( SEMA3) including SEMA3C, have been associated with the development of Hirschsprung disease (HSCR) in Caucasian populations. We aimed to screen for rare and common variants in SEMA3C in Indonesian patients with HSCR. Methods In this prospective clinical study, we analyzed SEMA3C gene variants in 55 patients with HSCR through DNA sequencing and bioinformatics analyses. Results Two variants in SEMA3C were found: p.Val337Met (rs1527482) and p.Val579 = (rs2272351). The rare variant rs1527482 (A) was significantly overrepresented in our HSCR patients (9.1%) compared with South Asian controls in the 1000 Genomes (4.7%) and Exome Aggregation Consortium (ExAC; 3.5%) databases. Our analysis using bioinformatics tools predicted this variant to be evolutionarily conserved and damaging to SEMA3C protein function. Although the frequency of the other variant, rs2272351 (G), also differed significantly in Indonesian patients with HSCR (27.3%) from that in South Asian controls in 1000 Genomes (6.2%) and ExAC (4.6%), it is a synonymous variant and not likely to affect protein function. Conclusions This is the first comprehensive report of SEMA3C screening in patients of Asian ancestry with HSCR and identifies rs1527482 as a possible disease risk allele in this population.

Published

2021

36. Genetic variation in the oxytocin system and its link to social motivation in human infants

Author

Tobias Grossmann, Nauder Namaky, Mikhail Monakhov, Poh San Lai, Richard P. Ebstein, and Kathleen M. Krol

Subjects

Endocrinology, Diabetes and Metabolism, Oxytocin, Lateralization of brain function, Developmental psychology, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Genetic variation, medicine, Humans, Brain asymmetry, Biological Psychiatry, Motivation, Endocrine and Autonomic Systems, Brain, Genetic Variation, Infant, medicine.disease, Preference, 030227 psychiatry, Psychiatry and Mental health, Frontal asymmetry, Autism spectrum disorder, Psychology, 030217 neurology & neurosurgery, Social motivation, medicine.drug

Abstract

Introduction. Variability in the motivation to approach or withdraw from others displayed in infancy is thought to have long-term effects on human social development. Frontal brain asymmetry has been linked to motivational processes in infants and adults, with greater left frontal asymmetry reflecting motivation to approach and greater right frontal asymmetry reflecting motivation to withdraw. We examined the hypothesis that variability in infants’ social motivation is linked to genetic variation in the endogenous oxytocin system. Specifically, we measured infants’ frontal brain asymmetry and later looking preferences to smiling and frowning individuals and assayed a single-nucleotide polymorphism in the CD38 gene (rs3796863) linked to autism spectrum disorder and reduced peripheral oxytocin levels. Methods. 77 11-month-old infants’ (36 female) brain responses were measured via functional near-infrared spectroscopy (fNIRS) while viewing four individuals display either smiles or frowns directed toward or away from them. This was followed by a person preference test using eyetracking. Results. Frontal brain asymmetry patterns evoked by direct-gaze faces significantly differed as a function of CD38 genotype. Specifically, while non-risk A-allele carriers displayed greater left lateralization to smiling faces (approach) and greater right lateralization to frowning faces (withdrawal), infants with the CC (ASD risk) genotype displayed withdrawal from smiling faces. During eyetracking, A-allele carriers showed a heightened preference for the individual who smiled, while CC infants preferred the individual who frowned.Conclusions. Our findings demonstrate that, from early in human ontogeny, genetic variation in the oxytocin system is linked to variability in brain and behavioral markers of social motivation.

Published

2021

37. Germline genome modification through novel political, ethical, and social lenses

Author

Poh San Lai, G. Owen Schaefer, Søren Holm, Yujia Zhu, Ruth Chadwick, Markus K. Labude, Vicki Xafis, and Roger Foo

Subjects

Cancer Research, Unconscious mind, National interest, Field (Bourdieu), Perspective (graphical), Environmental ethics, QH426-470, Biology, Injustice, law.invention, Lens (optics), Politics, law, Genetics, Science policy, Molecular Biology, Genetics (clinical), Ecology, Evolution, Behavior and Systematics

Abstract

Much has been written about gene modifying technologies (GMTs), with a particularly strong focus on human germline genome editing (HGGE) sparked by its unprecedented clinical research application in 2018, shocking the scientific community. This paper applies political, ethical, and social lenses to aspects of HGGE to uncover previously underexplored considerations that are important to reflect on in global discussions. By exploring 4 areas—(1) just distribution of HGGE benefits through a realist lens; (2) HGGE through a national interest lens; (3) “broad societal consensus” through a structural injustice lens; and (4) HGGE through a scientific trustworthiness lens—a broader perspective is offered, which ultimately aims to enrich further debates and inform well-considered solutions for developments in this field. The application of these lenses also brings to light the fact that all discussions about scientific developments involve a conscious or unconscious application of a lens that shapes the direction of our thinking.

Published

2021

38. Frontiers In Human Genetics: Diseases And Technologies: Diseases and Technologies

Author

Coral Poh San Lai, Eric P H Yap

Published

2001

39. Blending oxytocin and dopamine with everyday creativity

Author

Zhen Lei, Anne Chong, Benjamin Becker, Yue Xiong, Poh San Lai, Soo Hong Chew, Dario C. Angeles, Fabio Malavasi, Richard P. Ebstein, Qianzi Tang, Mike Cheung, and Serenella Tolomeo

Subjects

Adult, Male, Science, Dopamine, Dopamine Agents, Catechol O-Methyltransferase, GPI-Linked Proteins, Oxytocin, Polymorphism, Single Nucleotide, Article, Creativity, Young Adult, Cognition, Sex Factors, Antigens, CD, Dopamine receptor D2, Oxytocics, Gene expression, medicine, Humans, ADP-ribosyl Cyclase, Saliva, Transcriptomics, Multidisciplinary, Membrane Glycoproteins, Receptors, Dopamine D2, Dopaminergic, Phenotype, ADP-ribosyl Cyclase 1, Gene Expression Regulation, Behavioural genetics, Reverse transcription polymerase chain reaction, Medicine, Female, Gene-Environment Interaction, Psychology, Neuroscience, Divergent thinking, medicine.drug

Abstract

Converging evidence suggests that oxytocin (OT) is associated with creative thinking (CT) and that release of OT depends on ADP ribosyl-cyclases (CD38 and CD157). Neural mechanisms of CT and OT show a strong association with dopaminergic (DA) pathways, yet the link between CT and CD38, CD157, dopamine receptor D2 (DRD2) and catechol-O-methyltransferase (COMT) peripheral gene expression remain inconclusive, thus limiting our understanding of the neurobiology of CT. To address this issue, two principal domains of CT, divergent thinking (AUT), were assessed. In men, both AUT is associated with gene expression of CD38, CD157, and their interaction CD38 × CD157. There were no significant associations for DA expression (DRD2, COMT, DRD2 × COMT) on both CT measures. However, analysis of the interactions of OT and DA systems reveal significant interactions for AUT in men. The full model explained a sizable 39% of the variance in females for the total CT score. The current findings suggest that OT and DA gene expression contributed significantly to cognition and CT phenotype. This provides the first empirical foundation of a more refined understanding of the molecular landscape of CT.

Published

2020

40. The orphan nuclear receptor NR0B2 could be a novel susceptibility locus associated with microsatellite-stable, APC mutation-negative early-onset colorectal carcinomas with metabolic manifestation

Author

Kuen Kuen, Lam, Raman, Sethi, Grace, Tan, Swati, Tomar, Michelle, Lo, Carol, Loi, Choong Leong, Tang, Emile, Tan, Poh San, Lai, and Peh Yean, Cheah

Subjects

Adult, Male, Retinoid X Receptor alpha, Adenomatous Polyposis Coli Protein, Carcinoma, Receptors, Cytoplasmic and Nuclear, Haploinsufficiency, Middle Aged, Zinc Finger Protein GLI1, Pedigree, Proto-Oncogene Proteins c-bcl-2, Mutation, Humans, Female, Smad3 Protein, Age of Onset, Colorectal Neoplasms, Microsatellite Repeats, Protein Binding

Abstract

Colorectal cancer (CRC) is a high incidence cancer and major cause of cancer mortality. Though disease-causing tumor suppressors for major syndromes are well characterized, about 10% of CRC is familial but without mutations in known tumor suppressors. We exhaustively screened 100 polyposis families for APC germline mutations and identified 13, which are APC mutation-negative, microsatellite-stable (MSS), and with undetectable mutation in known tumor suppressors. Whole exome sequencing in three probands uncovered two with germline frameshift NR0B2 mutations, c.293_301delTTGGGTTGGinsAC and c.227delT. Sanger Sequencing identified a third proband with NR0B2 c.157_166delCATCGCACCT frameshift mutation. All three mutations deleted the C-terminus activation/repression domain of NR0B2, thus are loss-of-function mutations. Real-time RT-PCR performed on tumor and matched mucosa of one patient revealed that NR0B2 downstream targets, SMAD3 was derepressed while GLI1 was downregulated in the colonic mucosa compared to healthy controls. Truncated NR0B2 molecule was predicted to have weakened binding with interacting partners SMAD3, GLI1, BCL2, and RXRα, implying perturbation of TGF-β, Hedgehog, anti-apoptotic and nuclear hormone receptor signaling pathways. Immunostaining also revealed nuclear retention of the most severely truncated NR0B2 molecule compared to the wildtype. Microsatellite and sequencing analysis did not detect loss of wildtype allele in probands' tumors. The patient who acquired somatic KRAS mutation progressed rapidly whist the other two patients manifested with late-onset obesity and diabetes. We propose that haploinsufficiency of NR0B2 is associated with a novel CRC syndrome with metabolic phenotypes.

Published

2020

41. Phosphoethanolamine Elevation in Plasma of Spinal Muscular Atrophy Type 1 Patients

Author

Mawaddah Ar, Rochmah, Yogik Onky Silvana, Wijaya, Nur Imma Fatimah, Harahap, Chisato, Tode, Atsuko, Takeuchi, Kazuki, Ohuchi, Masamitsu, Shimazawa, Hideaki, Hara, Michinori, Funato, Toshio, Saito, Kayoko, Saito, Poh San, Lai, Hiroyuki, Awano, Masakazu, Shinohara, Hisahide, Nishio, and Emma Tabe Eko, Niba

Subjects

Infant, Newborn, Infant, Articles, Spinal Muscular Atrophies of Childhood, Gas Chromatography-Mass Spectrometry, Mice, Ethanolamines, Case-Control Studies, Child, Preschool, Metabolome, Animals, Humans, Metabolomics, Biomarkers

Abstract

BACKGROUND: Spinal muscular atrophy (SMA) is an autosomal recessive neuromuscular disorder characterized by degeneration or loss of lower motor neurons. The survival of motor neuron (SMN) 1 gene, which produces the SMN protein, has been identified as a responsible gene for the disease. SMN is ubiquitously expressed in any tissue and may play an important role on the metabolism in the human body. However, no appropriate biomarkers reflecting the alteration in the metabolism in SMA have been identified. METHODS: Low-molecular-weight metabolites were extracted from plasma of 20 human infants (9 SMA type 1 patients and 11 controls) and 9 infant mice (5 SMA-model mice, 4 control mice), and derivatized with N-methyl-N-trimethylsilyltrifluoroacetamide. Finally, the derivatized products were applied to Gas Chromatography/Mass Spectrometry apparatus. To confirm the metabolite abnormality in SMA type 1 patients, we performed SMN-silencing experiment using a hepatocyte-derived cell line (HepG2). RESULTS: We performed a comprehensive metabolomics analysis of plasma from the patients with SMA type 1 and controls, and found that phosphoethanolamine (PEA) was significantly higher in the patients than in the controls. HepG2 experiment also showed that SMN-silencing increased PEA levels. However, comprehensive metabolomics analysis of plasma from SMA-model mice and control mice showed different profile compared to human plasma; there was no increase of PEA even in the SMA-model mice plasma. CONCLUSION: Our data suggested that PEA was one of the possible biomarkers of human SMA reflecting metabolic abnormalities due to the SMN protein deficiency.

Published

2020

42. Clinical phenotypes of spinal muscular atrophy patients with hybrid SMN gene

Author

Yogik Onky Silvana Wijaya, Hiroyuki Awano, Tomohiro Chiyonobu, Toshio Saito, Kentaro Okamoto, Poh San Lai, Emma Tabe Eko Niba, Yasuhiro Takeshima, Hisahide Nishio, Takenori Tozawa, Misaki Yamadera, and Masakazu Shinohara

Subjects

Male, Neuromuscular disease, DNA Copy Number Variations, Genotype, Hybrid SMN gene, animal diseases, Gene Dosage, SMN1, Biology, Polymerase Chain Reaction, Muscular Atrophy, Spinal, 03 medical and health sciences, Exon, 0302 clinical medicine, Developmental Neuroscience, Japan, medicine, Humans, Gene conversion, Gene, Sequence Deletion, Genetics, Base Sequence, Chimera, General Medicine, Spinal muscular atrophy, Exons, medicine.disease, SMA, Phenotype, Survival of Motor Neuron 1 Protein, nervous system diseases, Survival of Motor Neuron 2 Protein, nervous system, Pediatrics, Perinatology and Child Health, Female, Neurology (clinical), 030217 neurology & neurosurgery, Gene Deletion, SMN2

Abstract

Background Spinal muscular atrophy (SMA) is a neuromuscular disease caused by homozygous deletion of SMN1 exons 7 and 8. However, exon 8 is retained in some cases, where SMN2 exon 7 recombines with SMN1 exon 8, forming a hybrid SMN gene. It remains unknown how the hybrid SMN gene contribute to the SMA phenotype. Method We analyzed 515 patients with clinical suspicion for SMA. SMN1 exons 7 and 8 deletion was detected by PCR followed by enzyme digestion. Hybrid SMN genes were further analyzed by nucleotide sequencing. SMN2 copy number was determined by real-time PCR. Results SMN1 exon 7 was deleted in 228 out of 515 patients, and SMN1 exon 8 was also deleted in 204 out of the 228 patients. The remaining 24 patients were judged to carry a hybrid SMN gene. In the patients with SMN1 exon 7 deletion, the frequency of the severe phenotype was significantly lower in the patients with hybrid SMN gene than in the patients without hybrid SMN gene. However, as for the distribution of SMN2 exon 7 copy number among the clinical phenotypes, there was no significant difference between both groups of SMA patients with or without hybrid SMN gene. Conclusion Hybrid SMN genes are not rare in Japanese SMA patients, and it appears to be associated with a less severe phenotype. The phenotype of patients with hybrid SMN gene was determined by the copy number of SMN2 exon 7, as similarly for the patients without hybrid SMN gene.

Published

2020

43. Newborn Screening for Spinal Muscular Atrophy: DNA Preparation from Dried Blood Spot and DNA Polymerase Selection in PCR

Author

Atsuko, Takeuchi, Chisato, Tode, Masayoshi, Nishino, Yogik Onky Silvana, Wijaya, Emma Tabe Eko, Niba, Hiroyuki, Awano, Yasuhiro, Takeshima, Toshio, Saito, Kayoko, Saito, Poh San, Lai, Yoshihiro, Bouike, Hisahide, Nishio, and Masakazu, Shinohara

Subjects

Infant, Newborn, DNA, DNA-Directed DNA Polymerase, Articles, Polymerase Chain Reaction, Survival of Motor Neuron 1 Protein, nervous system diseases, Muscular Atrophy, Spinal, Survival of Motor Neuron 2 Protein, Thermococcus, Neonatal Screening, Japan, Humans, Taq Polymerase, Dried Blood Spot Testing, Gene Deletion, Polymorphism, Restriction Fragment Length

Abstract

BACKGROUND: Polymerase chain reaction (PCR) analysis using DNA from dried blood spot (DBS) samples on filter paper is a critical technique for spinal muscular atrophy (SMA) newborn screening. However, DNA extraction from DBS is time-consuming, and elimination of PCR inhibitors from DBS is almost impossible. METHODS: Exon 7 of the two homologous SMA-related genes, survival motor neuron (SMN) 1 and SMN2, of five SMA patients and five controls were amplified by PCR with a punched-out circle of the DBS paper. Two types of DNA preparation methods were tested; DNA-extraction (extracted DNA was added in a PCR tube) and non-DNA-extraction (a punched-out DBS circle was placed in a PCR tube). As for the DNA polymerases, two different enzymes were compared; TaKaRa Ex Taq(™) and KOD FX Neo(™). To test the diagnostic quality of PCR products, RFLP (Restriction fragment length polymorphism) analysis with DraI digestion was performed, differentiating SMN1 and SMN2. RESULTS: In PCR using extracted DNA, sufficient amplification was achieved with TaKaRa Ex Taq(™) and KOD FX Neo(™), and there was no significant difference in amplification efficiency between them. In direct PCR with a punched-out DBS circle, sufficient amplification was achieved when KOD FX Neo(™) polymerase was used, while there was no amplification with TaKaRa Ex Taq(™). RFLP analysis of the direct PCR products with KOD FX Neo(™) clearly separated SMN1 and SMN2 sequences and proved the presence of both of SMN1 and SMN2 in controls, and only SMN2 in SMA patients, suggesting that the direct PCR products with KOD FX Neo(™) were of sufficient diagnostic quality for SMA testing. CONCLUSION: Direct PCR with DNA polymerases like KOD FX Neo(™) has potential to be widely used in SMA newborn screening in the near future as it obviates the DNA extraction process from DBS and can precisely amplify the target sequences in spite of the presence of PCR inhibitors.

Published

2020

44. Nested PCR Amplification Secures DNA Template Quality and Quantity in Real-time mCOP-PCR Screening for SMA

Author

Yogik Onky Silvana, Wijaya, Emma Tabe Eko, Niba, Mawaddah Ar, Rochmah, Nur Imma Fatimah, Harahap, Hiroyuki, Awano, Yasuhiro, Takeshima, Toshio, Saito, Kayoko, Saito, Atsuko, Takeuchi, Poh San, Lai, Yoshihiro, Bouike, Hisahide, Nishio, and Masakazu, Shinohara

Subjects

Muscular Atrophy, Spinal, Survival of Motor Neuron 2 Protein, Humans, Articles, Real-Time Polymerase Chain Reaction, Survival of Motor Neuron 1 Protein

Abstract

BACKGROUND: Spinal Muscular Atrophy (SMA) is a common autosomal recessive disorder caused by SMN1 gene deletion. SMA has been considered an incurable disease. However, a newly-developed antisense oligonucleotide drug, nusinersen, brings about a good outcome to SMA patients in the clinical trials. Now, a screening for SMA is required for early diagnosis and early treatment so as to give a better clinical outcome to the patients. We have invented a new technology, mCOP-PCR, for SMA screening using dried blood spot (DBS) on the filter paper. One of the problems encountered in SMA screening is poor quality and quantity of DNA extracted from DBS. METHODS: DNA was extracted from DBS of six individuals. Fresh blood DNA of each individual had already been genotyped using PCR/RFLP. The fragments including the sequence of SMN1/SMN2 exon 7 were pre-amplified with conventional PCR. To determine which pre-amplified product is a better template for the real-time mCOP-PCR, we did pre-amplification with a single PCR or pre-amplification with a nested PCR. RESULTS: The real-time mCOP-PCR using pre-amplified products with a single PCR brought about ambiguous results in some SMN1-carrying individuals. However, the results of real-time mCOP-PCR following pre-amplification with a nested PCR were completely matched with those of PCR-RFLP. CONCLUSION: In our study on the real-time mCOP-PCR screening system for SMA, a nested PCR secured the DNA template quality and quantity, leading to unambiguous results of SMA screening.

Published

2020

45. Spinal Muscular Atrophy: New Screening System with Real-Time mCOP-PCR and PCR-RFLP for SMN1 Deletion

Author

Emma Tabe Eko, Niba, Mawaddah Ar, Rochmah, Nur Imma Fatimah, Harahap, Hiroyuki, Awano, Ichiro, Morioka, Kazumoto, Iijima, Yasuhiro, Takeshima, Toshio, Saito, Kayoko, Saito, Atsuko, Takeuchi, Poh San, Lai, Yoshihiro, Bouike, Masafumi, Matsuo, Hisahide, Nishio, and Masakazu, Shinohara

Subjects

Muscular Atrophy, Spinal, Survival of Motor Neuron 2 Protein, Case-Control Studies, Humans, Articles, Real-Time Polymerase Chain Reaction, Survival of Motor Neuron 1 Protein, Gene Deletion, Polymorphism, Restriction Fragment Length, nervous system diseases

Abstract

BACKGROUND: Spinal Muscular Atrophy (SMA) is a common autosomal recessive neuromuscular disorder characterized by degeneration or loss of lower motor neurons. More than 95% of SMA patients show homozygous deletion for the survival motor neuron 1 (SMN1) gene. For the screening of SMN1 deletion, it is necessary to differentiate SMN1 from its highly homologous gene, SMN2. We developed a modified competitive oligonucleotide priming-PCR (mCOP-PCR) method using dried blood spot (DBS)-DNA, in which SMN1 and SMN2-specific PCR products are detected with gel-electrophoresis. Next, we added a targeted pre-amplification step prior to the mCOP-PCR step, to avoid unexpected, non-specific amplification. The pre-amplification step enabled us to combine mCOP-PCR and real-time PCR. In this study, we combined real-time mCOP-PCR and PCR-restriction fragment length polymorphism (PCR-RFLP) to develop a new screening system for detection of SMN1 deletion. METHODS: DBS samples of the subjects were stored at room temperature for a period of less than one year. Each subject had already been genotyped by the first PCR-RFLP using fresh blood DNA. SMN1/SMN2 exon 7 was collectively amplified using conventional PCR (targeted pre-amplification), the products of which were then used as a template in the real-time PCR with mCOP-primer sets. To confirm the results, the pre-amplified products were subject to the second PCR-RFLP. RESULTS: The real-time mCOP-PCR separately amplified SMN1 and SMN2 exon7, and clearly demonstrated SMN1 deletion in an SMA patient. The results of the real-time mCOP-PCR using DBS-DNA were completely consistent with those of the first and second PCR-RFLP analysis. CONCLUSION: In our new system for detection of SMN1 deletion, real-time mCOP-PCR rapidly proved the presence or absence of SMN1 and SMN2, and the results were easily tested by PCR-RFLP. This solid genotyping system will be useful for SMA screening.

Published

2020

46. Spinal Muscular Atrophy: Advanced Version of Screening System with Real-Time mCOP-PCR and PCR-RFLP for SMN1 Deletion

Author

Emma Tabe Eko, Niba, Mawaddah Ar, Rochmah, Nur Imma Fatimah, Harahap, Hiroyuki, Awano, Ichiro, Morioka, Kazumoto, Iijima, Yasuhiro, Takeshima, Toshio, Saito, Kayoko, Saito, Atsuko, Takeuchi, Poh San, Lai, Yoshihiro, Bouike, Masafumi, Matsuo, Hisahide, Nishio, and Masakazu, Shinohara

Subjects

Muscular Atrophy, Spinal, Survival of Motor Neuron 2 Protein, Case-Control Studies, Humans, Articles, Real-Time Polymerase Chain Reaction, Survival of Motor Neuron 1 Protein, Gene Deletion, Polymorphism, Restriction Fragment Length, nervous system diseases, DNA Primers

Abstract

BACKGROUND: Spinal Muscular Atrophy (SMA) is a common autosomal recessive neuromuscular disease characterized by defects of lower motor neurons. More than 95% of SMA patients show homozygous deletion for the survival motor neuron 1 (SMN1) gene. For the screening of SMN1 deletion using dried blood spot (DBS), we developed a new combined system with real-time “modified competitive oligonucleotide priming”-polymerase chain reaction (mCOP-PCR) and PCR restriction fragment length polymorphism (PCR-RFLP). Although our real-time mCOP-PCR method is secured enough to be gene-specific, its amplification efficiency is not as good because the reverse primers carry a nucleotide mismatched with the sequence of the pre-amplified product. The mismatch has consequently been generated in the process of introducing a restriction enzyme site in the pre-amplified products for PCR-RFLP. METHOD: DBS samples of the subjects were stored at room temperature for a period of less than one year. Each subject had already been genotyped by the first PCR-RFLP using fresh blood DNA. SMN1/SMN2 exon 7 was collectively amplified using conventional PCR (targeted pre-amplification). Pre-amplified products were used as template in the real-time mCOP-PCR, and, on the other hand, were digested with DraI enzyme (PCR-RFLP). To improve the amplification efficiency of mCOP-PCR, one nucleotide change was introduced in the original reverse primers (SMN1-COP and SMN2-COP) to eliminate the mismatched nucleotide. RESULTS: The real-time mCOP-PCR with a new primer (SMN1-COP-DRA or SMN2-COP-DRA) more rapidly and specifically amplified SMN1 and SMN2, and clearly demonstrated SMN1 deletion in an SMA patient. With the new primers, the amplification efficiencies of real-time mCOP-PCR were improved and the Cq values of SMN1 (+) and SMN2 (+) samples were significantly lowered. CONCLUSION: In the advanced version of our screening system for homozygous SMN1 deletion using DBS, the real-time mCOP-PCR with newly-designed reverse primers demonstrated the presence or absence of SMN1 and SMN2 within a shorter time, and the results were easily tested by PCR-RFLP. This rapid and accurate screening system will be useful for detection of newborn infants with SMA.

Published

2020

47. U-shaped relation between plasma oxytocin levels and behavior in the trust game.

Author

Songfa Zhong, Mikhail Monakhov, Helen P Mok, Terry Tong, Poh San Lai, Soo Hong Chew, and Richard P Ebstein

Subjects

Medicine, Science

Abstract

Trust underpins much of social and economic exchanges across human societies. In experimental economics, the Trust Game has served as the workhorse for the study of trust in a controlled incentivized setting. Recent evidence using intranasal drug administration, aka 'sniffing', suggests that oxytocin (OT) can function as a social hormone facilitating trust and other affiliative behaviors. Here we hypothesized that baseline plasma OT is a biomarker that partially predicts the degree of trust and trustworthiness observed in the trust game. Using a large sample of 1,158 participants, we observed a significant U-shaped relationship between plasma OT with the level of trust, and marginally with the level of trustworthiness, especially among males. Specifically, subjects with more extreme levels of plasma OT were more likely to be trusting as well as trustworthy than those with moderate levels of plasma OT. Our results contribute to a deeper understanding of the biological basis of human trust and underscore the usefulness of peripheral plasma OT measures in characterizing human social behavior.

Published

2012

48. Dopaminergic polymorphisms associated with time-on-task declines and fatigue in the Psychomotor Vigilance Test.

Author

Julian Lim, Richard Ebstein, Chun-Yu Tse, Mikhail Monakhov, Poh San Lai, David F Dinges, and Kenneth Kwok

Subjects

Medicine, Science

Abstract

Prolonged demands on the attention system can cause a decay in performance over time known as the time-on-task effect. The inter-subject differences in the rate of this decline are large, and recent efforts have been made to understand the biological bases of these individual differences. In this study, we investigate the genetic correlates of the time-on-task effect, as well as its accompanying changes in subjective fatigue and mood. N = 332 subjects performed a 20-minute test of sustained attention (the Psychomotor Vigilance Test) and rated their subjective states before and after the test. We observed substantial time-on-task effects on average, and large inter-individual differences in the rate of these declines. The 10-repeat allele of the variable number of tandem repeats marker (VNTR) in the dopamine transporter gene and the Met allele of the catechol-o-methyl transferase (COMT) Val158Met polymorphism were associated with greater vulnerability to time-on-task. Separately, the exon III DRD4 48 bp VNTR of the dopamine receptor gene DRD4 was associated with subjective decreases in energy. No polymorphisms were associated with task-induced changes in mood. We posit that the dopamine transporter and COMT genes exert their effects by increasing dopaminergic tone, which may induce long-term changes in the prefrontal cortex, an important mediator of sustained attention. Thus, these alleles may affect performance particularly when sustained dopamine release is necessary.

Published

2012

49. Malignant Hyperthermia and Ryanodine Receptor Type 1 Gene (RyR1) Mutation in a Family in Singapore

Author

Daphne WY Li, Poh San Lai, Delice W Lee, Rita YY Yong, and Tat Leang Lee

Subjects

General Medicine

Abstract

Introduction: Sporadic clinical episodes of malignant hyperthermia (MH) that develop during general anaesthesia (GA) have been reported in Singapore. However, there is no published local report of a confirmed case of MH susceptibility (MHS) by skeletal muscle contracture tests and/or molecular tests. Materials and Methods: We report 2 patients from an extended family who developed signs of clinical MH while under GA. The MH episodes were successfully treated with intravenous dantrolene sodium. Sequence analysis of the entire Ryanodine Receptor Type 1 (RyR1) coding gene was carried out in an index patient. Results: The index patient was found to carry a c.7373G>A (p.Arg2458His) mutation in exon 46. This particular mutation satisfies the criteria for a MHS causative mutation. Hence, the index patient was considered to be MHS and did not need to undergo further muscle contracture testing. The same mutation was also found in 3 other members of his extended family. Conclusion: This is the first report of a Singaporean family with at least 4 members carrying a MH-causative mutation in RyR1 gene. This report serves to highlight the existence of the putative gene for MH in Singapore, and the need for clinical vigilance during anaesthesia involving the use of triggering agents. Key words: Dantrolene, Inhalational agent, Suxamethonium

Published

2017

50. Dynamics of co-transcriptional pre-mRNA folding influences the induction of dystrophin exon skipping by antisense oligonucleotides.

Author

Keng Boon Wee, Zacharias Aloysius Dwi Pramono, Jian Li Wang, Karl F MacDorman, Poh San Lai, and Woon Chee Yee

Subjects

Medicine, Science

Abstract

Antisense oligonucleotides (AONs) mediated exon skipping offers potential therapy for Duchenne muscular dystrophy. However, the identification of effective AON target sites remains unsatisfactory for lack of a precise method to predict their binding accessibility. This study demonstrates the importance of co-transcriptional pre-mRNA folding in determining the accessibility of AON target sites for AON induction of selective exon skipping in DMD. Because transcription and splicing occur in tandem, AONs must bind to their target sites before splicing factors. Furthermore, co-transcriptional pre-mRNA folding forms transient secondary structures, which redistributes accessible binding sites. In our analysis, to approximate transcription elongation, a "window of analysis" that included the entire targeted exon was shifted one nucleotide at a time along the pre-mRNA. Possible co-transcriptional secondary structures were predicted using the sequence in each step of transcriptional analysis. A nucleotide was considered "engaged" if it formed a complementary base pairing in all predicted secondary structures of a particular step. Correlation of frequency and localisation of engaged nucleotides in AON target sites accounted for the performance (efficacy and efficiency) of 94% of 176 previously reported AONs. Four novel insights are inferred: (1) the lowest frequencies of engaged nucleotides are associated with the most efficient AONs; (2) engaged nucleotides at 3' or 5' ends of the target site attenuate AON performance more than at other sites; (3) the performance of longer AONs is less attenuated by engaged nucleotides at 3' or 5' ends of the target site compared to shorter AONs; (4) engaged nucleotides at 3' end of a short target site attenuates AON efficiency more than at 5' end.

Published

2008