Genetic analysis of a Fanconi anemia case revealed the presence of FANCF mutation (exon 1;469>C-T) with implications to develop acute myeloid leukemia.

BACKGROUND: Fanconi anemia (FA) is a rare genetic disorder and one of the most common inherited forms of aplastic anemia. FA is an autosomal recessive or X-linked genetic disorder that is characterized by typical physical malformations and haematopoietic anomalies. In most cases of FA, patients harbor homozygous or double heterozygous mutations in the FANCA (60-65%), FANCC (10-15%), FANCG (~ 10%), FANCD2 (3-6%) or FANCF (2%) genes in different ethnic populations, which leads to inherited bone marrow failure (IBMF). Hence, it is important to screen such mutations in correlation with clinical manifestations of FA in various ethnic populations. APPROACH: An 11 year old female pediatric patient of an East India family was presented with febrile illness, having thrombocytopenia with positive dengue IgM (Immunoglobulin M) and treated as a case of dengue hemorrhagic fever at the initial stage of diagnosis. Chromosomal breakage study was performed based on the abnormal physical examination, which showed 100% breaks, triradials, and quadrilaterals in mitomycin (MMC)-induced peripheral blood lymphocyte culture. Importantly, conventional cytogenetic assay in most of the bone marrow cells revealed an additional gain in chromosome 3q+ [46,XX,add(3)(q25)] and terminal loss in chr8p- [46,XX,del(8)(p23)], which might have a prognostic relevance in the outcomes of the FA patient. The bone marrow aspiration and biopsy were repeated and the results showed acute leukemia with 39% blast cells. Whole-genome sequencing analysis of the patient confirmed the presence of (exon 1; 496 > C-T) non-sense mutation leading to a truncated FANCF protein attributed to a stop codon at the amino acid position 166. CONCLUSION: The study reported the presence of a homozygous C-T exon 1 mutation in FANCF gene in the female pediatric patient from Odisha, India associated with FA. Furthermore, both parents were found to be carriers of FANCF gene mutation, as this allele was found to be in heterozygous state upon genome sequencing. The pathogenicity of the agent was robustly supported by the clinical phenotype and biochemical observations, wherein the patient eventually developed acute myeloid leukemia. The findings of the study infer the importance of early detection of FA and the associated mutations, which might lead to the development of acute myeloid leukemia.

Identification of a novel homozygous intron 3 splice site (A>T) mutation in the ARG1 gene in cerebral palsy pediatric cases from Odisha, India.

BACKGROUND: Arginase enzyme is essential for the catalysis of the last step of the urea cycle, resulting in the conversion of L-arginine to L-ornithine and urea. Arginase deficiency could lead to hyperarginemia, an autosomal recessive disorder of the urea cycle that could result in developmental manifestations after the first year of life, followed by gradually progressive atonic cerebral palsy, spastic quadriplegia, and mental decline. ARG1 mutations have been reported in hyperarginemia patients of Western countries because they exhibited reduced arginase activity. Hence, it is important to assess ARG1 mutations in cerebral palsy cases with hyperarginemia in different populations. METHODS AND RESULTS: This study involved two unrelated pediatric patients from two non-consanguineous East Indian families, exhibiting a range of manifestations, including hypotonia of all limbs, mental retardation, and multiple episodes of seizure. The onset of the disease ranged from 1 to 3 years of age. Hyperammonemia (> 250 micromoles) and serum hyperarginemia (> 350 micromoles) were observed in both the patients. Whole-genome sequencing, followed by Sanger sequencing of both the patients confirmed the presence of a homozygous 3' splice site variation in intron 3 of the ARG1 gene (chr6: g.131902357A>T) that affects the invariant AG acceptor splice site of exon 4 (c.330-2A>T; ENST00000356962.2). CONCLUSION: The study reported the identification of a novel ARG1 mutation in two different unrelated pediatric cases from Odisha, India associated with hyperarginemia. The pathogenicity of the mutation was robustly supported by the clinical phenotype, complete co-segregation with the disease, and biochemical observations.

Implications of biosensors and nanobiosensors for the eco-friendly detection of public health and agro-based insecticides: A comprehensive review.

Biosensors, in particular nanobiosensors, have brought a paradigm shift in the detection approaches involved in healthcare, agricultural, and industrial sectors. In accordance with the global expansion in the world population, there has been an increase in the application of specific insecticides for maintaining public health and enhancing agriculture, such as organophosphates, organochlorines, pyrethroids, and carbamates. This has led to the contamination of ground water, besides increasing the chances of biomagnification as most of these insecticides are non-biodegradable. Hence, conventional and more advanced approaches are being devised for the routine monitoring of such insecticides in the environment. This review walks through the implications of biosensors and nanobiosensors, which could offer a wide range of benefits for the detection of the insecticides, quantifying their toxicity status, and versatility in application. Unique eco-friendly nanobiosensors such as microcantilevers, carbon nanotubes, 3D printing organic materials and nylon nano-compounds are some advanced tools that are being employed for the detection of specific insecticides under different conditions. Furthermore, in order to implement a smart agriculture system, nanobiosensors could be integrated into mobile apps and GPS systems for controlling farming in remote areas, which would greatly assist the farmer remotely for crop improvement and maintenance. This review discusses about such tools along with more advanced and eco-friendly approaches that are on the verge of development and could offer a promising alternative for analyte detection in different domains.

Role of endoplasmic reticulum stress-related unfolded protein response and its implications in dengue virus infection for biomarker development.

Dengue virus (DENV) causes debilitating disease in humans, which varies at different rates in host cells, such as monocytes, macrophages, dendritic cells, Langerhans cells, and other cell types. Such heterogeneity in DENV infection in cells could be attributed to a range of factors, including host cell immune response, anti-viral cellular proteins, and virus mediated cellular autophagy. This review delineates an important feature of every cell, the unfolded protein response (UPR) that is attributed to the accumulation of several viral and unfolded/misfolded proteins, such as in DENV infection. UPR is a normal process to counteract endoplasmic reticulum (ER) stress that leads to cell autophagy; though the phenomenon is markedly upregulated during DENV infection. This could be attributed to the uncontrolled activation of the key UPR signaling pathways: inositol-requiring transmembrane kinase/endoribonuclease 1 (IRE1), protein kinase R (PKR)-like endoplasmic reticulum kinase (PERK), and activating transcription factor-6 (ATF6), which promote cell autophagy under normal and diseased conditions through the downstream regulation of apoptosis promoting factors such as X-box binding protein (XBP1), GADD34, and ATF-6. Because DENV can modulate these signaling cascades, by promoting dysregulated cell autophagy, the ER stress mediated UPR pathways and the inherent agents could play an important role in delineating the severity of dengue infection with a potential for developing DENV targeted therapeutics.