SKIV2L

SKIV2L
Identifiers
Aliases	SKIV2L,170A, DDX13, HLP, SKI2, SKI2W, SKIV2, THES2, SKIV2L1, Ski2 like RNA helicase
External IDs	OMIM:600478;MGI:1099835;HomoloGene:123971;GeneCards:SKIV2L;OMA:SKIV2L - orthologs
Gene location (Human)
Chr.	Chromosome 6 (human)
End	31,969,751bp
Gene location (Mouse)
Chr.	Chromosome 17 (mouse)
End	35,069,186bp
RNA expressionpattern
	Top expressed in
	right lobe of liver; ; pituitary gland; ; anterior pituitary; ; granulocyte; ; spleen; ; right adrenal gland; ; right adrenal cortex; ; mucosa of transverse colon; ; right lobe of thyroid gland; ; fundus;
	Top expressed in
	spermatocyte; ; granulocyte; ; Ileal epithelium; ; spermatid; ; dentate gyrus of hippocampal formation granule cell; ; lip; ; superior frontal gyrus; ; right kidney; ; ventricular zone; ; genital tubercle;
	More reference expression data
	More reference expression data
Gene ontology
Molecular function	RNA helicase activity; nucleotide binding; hydrolase activity; ATP binding; helicase activity; RNA binding; nucleic acid binding;
Cellular component	cytoplasm; Ski complex; nucleus; cytosol;
Biological process	RNA catabolic process; exonucleolytic catabolism of deadenylated mRNA; nuclear-transcribed mRNA catabolic process, 3'-5' exonucleolytic nonsense-mediated decay;
	Sources:Amigo/QuickGO
Orthologs
	6499
	108077
ENSG00000232616; ENSG00000204351; ENSG00000228896; ENSG00000206353; ENSG00000223493;
	ENSG00000225737
	ENSMUSG00000040356
	Q15477
	n/a
	NM_006929
	NM_021337; NM_178062
	NP_008860
	n/a
	Wikidata
View/Edit Human	View/Edit Mouse

Helicase SKI2Wis anenzymethat in humans is encoded by theSKIV2Lgene.^[5]^[6]^[7]This enzyme is a human homologue of yeast SKI2, which may be involved inantiviralactivity by blocking translation ofpoly(A)deficientmRNAs.TheSKIV2Lgene is located in the class III region of themajor histocompatibility complex.^[6]

DEAD boxproteins, characterized by the conservedmotifAsp-Glu-Ala-Asp (DEAD), are putativeRNA helicases.They are implicated in a number of cellular processes involving alteration ofRNAsecondary structure such as translation initiation, nuclear and mitochondrialsplicing,andribosomeandspliceosomeassembly. Based on their distribution patterns, some members of this family are believed to be involved inembryogenesis,spermatogenesis,andcellular growthanddivision.

Identification of gene

A novel human cDNA, homologous to the yeast gene SKI2, was identified in 1995. Researchers localised the corresponding gene to chromosome 6p.21.^[8]

TheSKIV2Lgene, also known asSKI2WorSki2-like RNA Helicase,spans 11Kb and contains 28 exons.^[7]Located between RD and RP1 gene in MHC III on the short arm of chromosome 6, it has 16 transcripts on Ensembl, 3 of which are protein coding. One of these proteins, SKI2W, has 1246 amino acids and a helicase binding domain between amino acids 319-475, and is thought to be involved in exosome RNA mediated RNA decay.^[9]

The presence of the DEVH-box at position 423-426 within SKI2W infers that it is a member of the SF-II helicase family.

The human protein was named SKI2W because of its similarity to yeast protein Ski2, which has highly homologous (nearly identical) regions at the helicase domain and the C terminal.^[10]

SKIV2Ltranscripts are expressed in most, if not all, human tissue tested including spleen, thymus, small intestine, colon, heart, brain and liver.^[11]

**Table 1. Table summarising properties of SKIV2L and encoded proteins.**
Species	Gene	Locus	CCDS code	UniProt	Exons	Amino acids
Human	SKIV2L	6p21.33	4731.1	Q15477	28	1246
Mouse	Skiv2l	chr 17	28661.1	n/a	28	1244

Function

The majority of the eukaryotic genome is transcribed into RNA molecules, which generates pools of RNA that require processing and surveillance in order to control abundant and damaged material. The RNA exosome multiprotein complex performs this function and is dependent on cofactors. The exosome was initially discovered in yeast but is also present in higher eukaryotes. It has activity in both the nucleus and cytoplasm for normal mRNA decay and for RNA surveillance and quality control through nonsense mediated; non-stop and no-go decay.^[12]

SKI2W is part of the tetraprotein ski complex which is an obligatory cytoplasmic cofactor of the RNA exosome and consists ofSKI2W,TTC37and 2 subunits of WD40 (encoded byWDR61), as pictured inFigure 1.^[13]Much of the information on SKI2W function is from yeast studies, where the homologue for SKI2W is ski2. In yeast, ski2 forms a ski complex with ski3 and 2 subunits of ski8. The ski2 (the SKI2W homolog in yeast) contains DEVH-box proteins which suggests it is the only protein in the ski complex to have an enzymatic helicase function.^[14]The exact interactions are not well described, however DEVH-box helicases are shown to separate nucleic strands in an energy dependent manner. The yeast ski complex has been more extensively studied than the human homologue, and a crystal structure of the RNA exosome and its interactions has been created that supports a role in non-stop decay, to thereby protect the cell from aberrant proteins.^[14]

Ski2 protein in yeast is also thought to have a role in antiviral defence, probably via its role in RNA turnover or through control of RNA degradation.^[16]

SKIV2Lhas been shown to be a negative regulator of the Rig-I like receptors (RLRs) that detect RNA. The authors found that the cytosolic RNA exosome, defined by theSKIV2LRNA helicase, is important for limiting the activation of RLRs and the antiviral response. If the endogenous RNAs fail to be processed, the cell undergoes an unfolded protein response which triggers an antiviral interferon (IFN) response. Human cells withSKIV2Ldeficiency are shown to have a strong IFN signature suggestive of a chronic antiviral response. The authors suggest that patients could subsequently be more prone to autoimmune disorders, although this has not been shown as yet, possibly due to the high mortality of patients. However this finding does suggest a link betweenSKIV2Land immune response.^[17]

Clinical significance

Pathogenic variants inSKIV2Lhas been linked to Tricho-hepato-enteric syndrome (THES), also known as syndromic diarrhoea (SD) or phenotypic diarrhoea (PD). First described by Stankler et al (1982) as Stankler syndrome, this condition was renamed THES in 1994.^[18]THES is rare, with an estimated prevalence of 1:1,000,000.^[19]It is characterised by intractable diarrhoea, beginning in first few weeks of life; characteristic hair abnormalities,” woolly "and brittle hair, intrauterine growth restriction and characteristic facial dysmorphisms. Other associations are hepatic dysfunction, skin abnormalities, intellectual disability and immunodeficiency. Less common findings include platelet abnormalities and congenital heart defects.^[20]

There are two causative genes,SKIV2L(in 1/3 of patients) andTTC37(2/3 of patients), both encode for proteins in the Ski complex and clinically they are indistinguishable from each other.^[12]

Inherited in an autosomal recessive manner with complete penetrance, approximately 2/3rd of patients are homozygotes and 1/3rd are compound heterozygous. Mutations are spread throughout the gene with no identifiable hotspot and generally consist of frameshift, missense and nonsense mutations; a smaller number are splice site mutations.^[13]There is no clear genotype/phenotype correlation with overall disease severity, even siblings with the same homozygous mutation display variable phenotypes. Patients have been described globally in Europe, Saudi Arabia, Malaysia, China and Japan.^[21]^[22]^[10]^[23]

Intractable watery diarrhoea is a near consistent feature in almost all described cases, almost always starting soon after birth and commonly requiring parenteral nutrition. In cases which do not require parenteral nutrition an elemental diet and supplemental feeding is required.^[13]

The majority ofSKIV2Lpathogenic variant harbouring patients are small at birth (<10th centile) and remain growth restricted despite increased nutrition. Hair abnormalities are seen in >90% of patients and are described as woolly, brittle hair that is easily removed.^[13]

Facial dysmorphisms are found in most patients and become more apparent with age. These include a large forehead, broad base of the nose and hypertelorism. Overall the facial features are described as “coarse”.

Liver disease is reported frequently inSKIV2Lpatients (>80%), ranging from fibrosis, cirrhosis, hepatomegaly and raised liver enzymes. Histopathology when performed shows iron overload and can be consistent with haemochromatosis.^[19]

Skin abnormalities are frequently reported and are variable including café au lait lesions, haemangiomas and xerosis. A report from Saudi Arabia suggested the skin changes were more frequent in the lower limb and pelvic region of their regional cohort.^[22]

Immunodeficiency is reported in some patients. It is poorly delineated and mainly consists of low immunoglobulins and inadequate vaccine responses, however hyper IgA has also been reported. Immunoglobulin therapy has been shown to lower rates of infection.^[24]

Less commonly congenital cardiac defects have been reported, mostly ventricular septal defects (VSD), atrial septal defects (ASD), and rarely Tetralogy of Fallot and peripheral pulmonary stenosis.

Mortality rate

Initially reported as high as 62.5% with most deaths in the first year, more recent reports have estimated mortality of around 30%, which is similar to other disorders which are dependent on parenteral nutrition.

Recommended treatment and surveillance

No specific treatments are available for THES. The goal is to maximise weight gain and reduce infection rates.

Most children require parenteral nutrition (PN) which can be combined with oral feeding, most commonly a semi-elemental diet which allows patients to become independent of PN over time. Nutrition and growth should be closely monitored. If PN is not required, reports have described the use of an amino acid based formula, although it is unclear if weight gain was adequate.

Immunoglobulin levels and vaccine responses should be tested. If any abnormalities are found then a paediatric immunologist should be consulted and intravenous immunoglobulin (IVIG) can be considered to reduce chance of systemic infections.^[20]^[25]Infection was reported as a cause of death in 20% of a large cohort of French patients.^[13]

A recent study looked at immunodeficiency in 9 THES patients, of which 3 hadSKIV2Lpathogenic variants. The authors reported that the degranulation and number of IFN-γ producing NK cells were reduced in most patients (although it is unclear if this included theSKIV2Lpatients) and proposed that this could lead to susceptibility to RNA viruses, with 4/9 patients harbouring a chronic EBV infection and one patient dying of measles.^[24]

Regular liver assessment should include ultrasound and hepatic enzymes and developmental assessment should be performed.^[26]

Steroids, immunosuppressants and haematopoietic stem cell transplant has been THES with no success and therefore it is not recommended.

Genetic counselling should be offered as a sibling recurrence is 25% with each conception.

Age related macular degeneration (ARMD)

An intronic single nucleotide polymorphism (SNP) inSKIV2Lon genome wide association studies has been shown to be protective for age related macular degeneration. 3’UTR variant inSKIV2Lhas recently been reported to exert a protective effect inpolypoidal choroidal vasculopathy,a haemorrhagic macular disease that shares some features with neovascular ARMD. As the variants would not affect structure of the protein, it was proposed that it affects regulation of oxidative stress pathways.^[27]

Conversely another study showed a genetic variant rs429608 to be strongly associated with the development of ARMD in the Han Chinese population,^[28]however further studies are needed to investigate the biological role of SKIV2L and pathogenesis.

Notes

References

^^a ^b ^cENSG00000204351, ENSG00000228896, ENSG00000206353, ENSG00000223493, ENSG00000225737 GRCh38: Ensembl release 89: ENSG00000232616, ENSG00000204351, ENSG00000228896, ENSG00000206353, ENSG00000223493, ENSG00000225737–Ensembl,May 2017
^^a ^b ^cGRCm38: Ensembl release 89: ENSMUSG00000040356–Ensembl,May 2017
^"Human PubMed Reference:".National Center for Biotechnology Information, U.S. National Library of Medicine.
^"Mouse PubMed Reference:".National Center for Biotechnology Information, U.S. National Library of Medicine.
^Lee SG, Lee I, Park SH, Kang C, Song K (February 1995). "Identification and characterization of a human cDNA homologous to yeast SKI2".Genomics.25(3): 660–6.doi:10.1016/0888-7543(95)80008-A.PMID 7759100.
^^a ^b"SKIV2L superkiller viralicidic activity 2-like (S. cerevisiae)".Entrez Gene.National Center for Biotechnology Information, U.S. National Library of Medicine.
^^a ^bYang Z, Shen L, Dangel AW, Wu LC, Yu CY (November 1998). "Four ubiquitously expressed genes, RD (D6S45)-SKI2W (SKIV2L)-DOM3Z-RP1 (D6S60E), are present between complement component genes factor B and C4 in the class III region of the HLA".Genomics.53(3): 338–47.doi:10.1006/geno.1998.5499.PMID 9799600.
^Lee SG, Lee I, Park SH, Kang C, Song K (February 1995). "Identification and characterization of a human cDNA homologous to yeast SKI2".Genomics.25(3): 660–6.doi:10.1016/0888-7543(95)80008-a.PMID 7759100.
^"UniProt: the universal protein knowledgebase".Nucleic Acids Research.45(D1): D158–D169. January 2017.doi:10.1093/nar/gkw1099.PMC5210571.PMID 27899622.
^^a ^bLee WS, Teo KM, Ng RT, Chong SY, Kee BP, Chua KH (July 2016). "Novel mutations in SKIV2L and TTC37 genes in Malaysian children with trichohepatoenteric syndrome".Gene.586(1): 1–6.doi:10.1016/j.gene.2016.03.049.PMID 27050310.
^Qu X, Yang Z, Zhang S, Shen L, Dangel AW, Hughes JH, et al. (September 1998)."The human DEVH-box protein Ski2w from the HLA is localized in nucleoli and ribosomes".Nucleic Acids Research.26(17): 4068–77.doi:10.1093/nar/26.17.4068.PMC147813.PMID 9705521.
^^a ^bFabre A, Charroux B, Martinez-Vinson C, Roquelaure B, Odul E, Sayar E, et al. (April 2012)."SKIV2L mutations cause syndromic diarrhea, or trichohepatoenteric syndrome".American Journal of Human Genetics.90(4): 689–92.doi:10.1016/j.ajhg.2012.02.009.PMC3322239.PMID 22444670.
^^a ^b ^c ^d ^e ^fBourgeois P, Esteve C, Chaix C, Béroud C, Lévy N, Fabre A, Badens C (June 2018)."Tricho-Hepato-Enteric Syndrome mutation update: Mutations spectrum of TTC37 and SKIV2L, clinical analysis and future prospects".Human Mutation.39(6): 774–789.doi:10.1002/humu.23418.PMID 29527791.S2CID 4331400.
^^a ^bHalbach F, Reichelt P, Rode M, Conti E (August 2013)."The yeast ski complex: crystal structure and RNA channeling to the exosome complex".Cell.154(4): 814–26.doi:10.1016/j.cell.2013.07.017.PMID 23953113.Archived fromthe originalon 2019-08-16.Retrieved2019-08-16.
^"Deadenylation-dependent mRNA decay (Homo sapiens) - WikiPathways".www.wikipathways.org.Retrieved2018-12-18.
^Schmidt C, Kowalinski E, Shanmuganathan V, Defenouillère Q, Braunger K, Heuer A, et al. (December 2016). "The cryo-EM structure of a ribosome-Ski2-Ski3-Ski8 helicase complex".Science.354(6318): 1431–1433.Bibcode:2016Sci...354.1431S.doi:10.1126/science.aaf7520.PMID 27980209.S2CID 30262907.
^Eckard SC, Rice GI, Fabre A, Badens C, Gray EE, Hartley JL, et al. (September 2014)."The SKIV2L RNA exosome limits activation of the RIG-I-like receptors".Nature Immunology.15(9): 839–45.doi:10.1038/ni.2948.PMC4139417.PMID 25064072.
^Girault D, Goulet O, Le Deist F, Brousse N, Colomb V, Césarini JP, et al. (July 1994). "Intractable infant diarrhea associated with phenotypic abnormalities and immunodeficiency".The Journal of Pediatrics.125(1): 36–42.doi:10.1016/s0022-3476(94)70118-0.PMID 8021782.
^^a ^bFabre A, Breton A, Coste ME, Colomb V, Dubern B, Lachaux A, et al. (January 2014). "Syndromic (phenotypic) diarrhoea of infancy/tricho-hepato-enteric syndrome".Archives of Disease in Childhood.99(1): 35–8.doi:10.1136/archdischild-2013-304016.PMID 24108068.S2CID 206855850.
^^a ^bFabre A, Martinez-Vinson C, Goulet O, Badens C (January 2013)."Syndromic diarrhea/Tricho-hepato-enteric syndrome".Orphanet Journal of Rare Diseases.8(1): 5.doi:10.1186/1750-1172-8-5.PMC3560276.PMID 23302111.
^Hiejima E, Yasumi T, Nakase H, Matsuura M, Honzawa Y, Higuchi H, et al. (November 2017)."Tricho-hepato-enteric syndrome with novel SKIV2L gene mutations: A case report".Medicine.96(46): e8601.doi:10.1097/MD.0000000000008601.PMC5704822.PMID 29145277.
^^a ^bMonies DM, Rahbeeni Z, Abouelhoda M, Naim EA, Al-Younes B, Meyer BF, Al-Mehaidib A (March 2015)."Expanding phenotypic and allelic heterogeneity of tricho-hepato-enteric syndrome".Journal of Pediatric Gastroenterology and Nutrition.60(3): 352–6.doi:10.1097/MPG.0000000000000627.PMID 25714577.S2CID 31110518.
^Zheng B, Pan J, Jin Y, Wang C, Liu Z (September 2016)."Targeted next-generation sequencing identification of a novel missense mutation of the SKIV2L gene in a patient with trichohepatoenteric syndrome".Molecular Medicine Reports.14(3): 2107–10.doi:10.3892/mmr.2016.5503.PMID 27431780.
^^a ^bVély F, Barlogis V, Marinier E, Coste ME, Dubern B, Dugelay E, et al. (2018-05-11)."Combined Immunodeficiency in Patients With Trichohepatoenteric Syndrome".Frontiers in Immunology.9:1036.doi:10.3389/fimmu.2018.01036.PMC5958188.PMID 29868001.
^Rider NL, Boisson B, Jyonouchi S, Hanson EP, Rosenzweig SD, Casanova JL, Orange JS (2015)."Corrigendum: Novel TTC37 Mutations in a Patient with Immunodeficiency without Diarrhea: Extending the Phenotype of Trichohepatoenteric Syndrome".Frontiers in Pediatrics.3:28.doi:10.3389/fped.2015.00028.PMC4398912.PMID 25932458.
^Fabre A, Bourgeois P, Chaix C, Bertaux K, Goulet O, Badens C (January 2018)."Trichohepatoenteric Syndrome".In Adam MP, Ardinger HH, Pagon RA, Wallace SE, Bean LJ, Stephens K, Amemiya A (eds.).GeneReviews.Seattle: University of Washington.PMID 29334452.
^Kopplin LJ, Igo RP, Wang Y, Sivakumaran TA, Hagstrom SA, Peachey NS, et al. (December 2010)."Genome-wide association identifies SKIV2L and MYRIP as protective factors for age-related macular degeneration".Genes and Immunity.11(8): 609–21.doi:10.1038/gene.2010.39.PMC3375062.PMID 20861866.
^Lu F, Shi Y, Qu C, Zhao P, Liu X, Gong B, et al. (April 2013)."A genetic variant in the SKIV2L gene is significantly associated with age-related macular degeneration in a Han Chinese population".Investigative Ophthalmology & Visual Science.54(4): 2911–7.doi:10.1167/iovs.12-11381.PMID 23557739.