Sequence complementarity between human noncoding RNAs and SARS-CoV-2 genes: What are the implications for human health?

ObjectivesTo investigate in silico the presence of nucleotide sequence complementarity between the RNA genome of Severe Acute Respiratory Syndrome CoronaVirus-2 (SARS-CoV-2) and human non-coding (nc)RNA genes.MethodsThe FASTA sequence (NC_045512.2) of each of the 11 SARS-CoV-2 isolate Wuhan-Hu-1 genes was retrieved from NCBI.nlm.nih.gov/gene and the Ensembl.org library interrogated for any base-pair match with human ncRNA genes. SARS-CoV-2 gene-matched human ncRNAs were screened for functional activity using bioinformatic analysis. Finally, associations between identified ncRNAs and human diseases were searched in GWAS databases.ResultsA total of 252 matches were found between the nucleotide sequence of SARS-CoV-2 genes and human ncRNAs. With the exception of two small nuclear RNAs, all of them were long non-coding (lnc)RNAs expressed mainly in testis and central nervous system under physiological conditions. The percentage of alignment ranged from 91.30% to 100% with a mean nucleotide alignment length of 17.5 ± 2.4. Thirty-three (13.09%) of them contained predicted R-loop forming sequences, but none of these intersected the complementary sequences of SARS-CoV-2. However, in 31 cases matches fell on ncRNA regulatory sites, whose adjacent coding genes are mostly involved in cancer, immunological and neurological pathways. Similarly, several polymorphic variants of detected non-coding genes have been associated with neuropsychiatric and proliferative disorders.ConclusionThis pivotal in silico study shows that SARS-CoV-2 genes have Watson-Crick nucleotide complementarity to human ncRNA sequences, potentially disrupting ncRNA epigenetic control of target genes. It remains to be elucidated whether this could result in the development of human disease in the long term.     

C1q: the perfect complement for a synaptic feast?

The efficient and selective removal of apoptotic cells is an important feature of tissue development, homeostasis and pathology. In the nervous system, synapses and distal axons are selectively eliminated as part of the remodelling that underpins development and pathology, through a process that has some features in common with apoptotic cell removal. Components of the complement cascade are implicated in the efficient removal of apoptotic cells outside the nervous system, and recent evidence suggests that the complement components C1q and C3 have a role in the selective tagging of supernumerary synapses in the developing visual system and in their efficient removal by as yet unidentified cells.     

Regional chromosomal assignment of genes encoding the α and β subunits of human complement protein C8 to 1p32

Summary The genes encoding the and subunits of human complement protein C8 previously mapped to chromosome 1 have been further localised to 1p32 by in situ hybridisation using biotinylated 2.4-kb human cDNA clones encoding the and subunits of human complement protein C8 as probes.     

The isolation of genomic recombinants for the human apolipoprotein B gene and the mapping of three common DNA polymorphisms of the gene —a useful marker for human chromosome 2

Summary We have used four independently isolated cDNA probes for human apolipoprotein B (apo B), to isolate overlapping genomic recombinants for the 3 portion of the apo B gene. The cDNA clones and a unique fragment from the genomic recombinant have been used to identify the human apo B gene in DNA from a series of roden x human somatic cell hybrids. Our results provide evidence for the assignment of this gene to the short arm of human chromosome 2 (p23-pter). We have used the cDNA probes to identify three common DNA polymorphisms. The first, detected with the restriction enzyme XbaI and our probe pAB4, has a rare allele frequency of 0.48. The other two polymorphisms are detected with the probe pAB3. The enzyme MspI detects at least three alleles, with frequencies of 0.67, 0.16 and 0.15, while that detected with the enzyme EcoRI has a rare allele frequency of 0.12. The relative position of these polymorphisms has been mapped using the genomic recombinants.Investigation of a small number of haplotypes indicares that there is linkage equilibrium between the polymorphisms, which have a total polymorphism information content (PIC) value of more than 0.8. These polymorphisms will provide useful markers for genetic studies on chromosome 2 and for the analysis of the involvement of variants of the apo B gene in the development of hyperlipidaemia.     

Differentiation genes: are they primary targets for human carcinogenesis?

In spite of extensive research in molecular carcinogenesis, genes that can be considered primary targets in human carcinogenesis remain to be identified. Mutated oncogenes or cellular growth regulatory genes, when incorporated into normal human epithelial cells, failed to immortalize or transform these cells. Therefore, they may be secondary events in human carcinogenesis. Based on some experimental studies we have proposed that downregulation of a differentiation gene may be the primary event in human carcinogenesis. Such a gene could be referred to as a tumor-initiating gene. Downregulation of a differentiation gene can be accomplished by a mutation in the differentiation gene, by activation of differentiation suppressor genes, and by inactivation of tumor suppressor genes. Downregulation of a differentiation gene can lead to immortalization of normal cells. Mutations in cellular proto-oncogenes, growth regulatory genes, and tumor suppressor genes in immortalized cells can lead to transformation. Such genes could be called tumor-promoting genes. This hypothesis can be documented by experiments published on differentiation of neuroblastoma (NB) cells in culture. The fact that terminal differentiation can be induced in NB cells by adenosine 3',5'-cyclic monophosphate (cAMP) suggests that the differentiation gene in these cells is not mutated, and thus can be activated by an appropriate agent. The fact that cAMP-resistant cells exist in NB cell populations suggests that a differentiation gene is mutated in these cancer cells, or that differentiation regulatory genes have become unresponsive to cAMP. In addition to cAMP, several other differentiating agents have been identified. Our proposed hypothesis of carcinogenesis can also be applied to other human tumors such as melanoma, pheochromocytoma, medulloblastoma, glioma, sarcoma, and colon cancer.     

Genome mining for human cancer genes: wherefore art thou?

In an initial data-mining effort, the draft human genome was searched to find paralogs of known tumor suppressor genes, and for gene arrangements, which are typical of oncogenes, in cancer cells. The results were disappointing, indicating that although knowledge of the human genome will undoubtedly be of great help, other approaches to identify new oncogenes are needed.     

Vascular endothelial growth factor receptor family genes: when did the three genes phylogenetically segregate?

The vascular endothelial growth factor (VEGF) receptor family in mammals contains three members, VEGFR1(Flt-1), VEGFR2(KDR/Flk-1) and VEGFR3 (Flt-4), which directly regulate the formation of blood vessels and lymphatic vessels. These two circular systems are essential for the supply of O2 and nutrients to all tissues of the body as well as the drainage of excess fluids with waste metabolites from peripheral tissues. VEGF receptors have a characteristic structure with 7 Ig-like domains in the extracellular domain and a cytoplasmic tyrosine kinase domain with a long kinase insert region. Recently, some novel findings on the phylogenetical conservation of VEGF receptor genes in animals were reported: the conservation of the VEGFR1/soluble-VEGFR1 gene in birds, and the conservation of the VEGFR-PDGFR-like receptor gene in nonvertebrates. Based on this new information as well as established observations, here the possibility is discussed that the three VEGFR genes phylogenetically segregated not at once when the vertebrates established, but in a step-wise manner: two genes first (the VEGFR1/R2 progenitor and the VEGFR3 gene), and subsequently the three genes VEGFR1, R2 and R3.     

LRRK2: a common pathway for parkinsonism, pathogenesis and prevention?

The presence of alpha-synuclein Lewy body pathology is used to distinguish Parkinson's disease from parkinsonism, for which a broader spectrum of neuropathologies, including tau-immunopositive neurofibrillary tangles and ubiquitin inclusions, might accompany nigral neuronal loss. These neuropathologies define the endpoint of many neurodegenerative disorders but might be symptomatic rather than causative. Mutations in the gene encoding leucine-rich repeat kinase 2 (LRRK2) were recently discovered in late-onset parkinsonism, the phenotype of which can be clinically and pathologically indistinguishable from Parkinson's disease. However, in some kindreds with LRRK2- associated disease, pathologically distinct forms of parkinsonism, including nigral neuronal loss with Lewy body disease or tau-immunopositive neurofibrillary tangles, were discovered. Understanding the molecular function of the LRRK2 protein and its associated pathways might elucidate the switch between Lewy body pathology and neurofibrillary tangles, and holds promise for prospective therapeutics that might slow or halt progression of many forms of parkinsonism.     

Plexins, semaphorins, and scatter factor receptors: a common root for cell guidance signals?

Semaphorins, the plexin family of semaphorin receptors, and scatter factor receptors share evolutionarily conserved protein modules, such as the semaphorin domain and Met Related Sequences (MRS). All these proteins also have in common a role in mediating cell guidance cues. During development, scatter factor receptors control cell migration, epithelial tubulogenesis, and neurite extension. Semaphorins and their receptors are known signals for axon guidance; they are also suspected to regulate developmental processes involving cell migration and morphogenesis, and have been implicated in immune function and tumor progression. Scatter factors and secreted semaphorins are diffusible ligands, whereas membrane-bound semaphorins signal by cell-cell interaction. Cell guidance control by semaphorins requires plexins, alone or in a receptor complex with neuropilins. Semaphorins, besides their role in axon guidance, are expected to have multiple functions in morphogenesis and tissue remodeling by mediating cell-repelling cues through plexin receptors.     

Isolation of the bovine and human genes for Müllerian inhibiting substance and expression of the human gene in animal cells

We have isolated the bovine and human genes for Müllerian inhibiting substance (MIS), a testicular glycoprotein that causes regression of the Müllerian duct during development of the male embryo. The mRNA sequence of bovine MIS, determined from an analysis of cDNA and genomic clones, codes for a protein of 575 amino acids containing a 24 amino acid leader peptide. The human gene has five exons that code for a protein of 560 amino acids. A comparison of the bovine and human MIS proteins reveals a highly conserved C-terminal domain that shows marked homology with human transforming growth factor-beta and the beta chain of porcine inhibin. Animal cells transfected with the human gene secrete biologically active MIS, which causes regression of the rat Müllerian duct in vitro.