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X-linked ichthyosis

December 15, 2023

X-linked ichthyosis (abbreviated XLI) is a skin condition caused by the hereditary deficiency of the steroid sulfatase (STS) enzyme that affects 1 in 2000 to 1 in 6000 males.[2] XLI manifests with dry, scaly skin[3] and is due to deletions[4][5] or mutations[6] in the STS gene. XLI can also occur in the context of larger deletions causing contiguous gene syndromes.[4] Treatment is largely aimed at alleviating the skin symptoms.[7] The term is from the Ancient Greek 'ichthys' meaning 'fish'.

X-linked ichthyosis
Other namesSteroid sulfatase deficiency, X-linked recessive ichthyosis[1]
X-linked recessive inheritance: Affected boys may inherit a deletion or mutation of the STS gene from their mothers
SpecialtyMedical genetics 

Signs and symptoms edit

 
X linked ichthyosis

The major symptoms of XLI include scaling of the skin, particularly on the neck, trunk, and lower extremities. The extensor surfaces are typically the most severely affected areas. The >4 mm diameter scales adhere to the underlying skin and can be dark brown or gray in color. Symptoms may subside during the summer.[2]

Associated medical conditions edit

Aside from the skin scaling, XLI is not typically associated with other major medical problems.[8] Atrial fibrillation or atrial flutter may affect up to 1 in 10 males with XLI.[9] Heart rhythm abnormalities in individuals with XLI tend to co-occur with disorders of the gastrointestinal tract, and are likely to result from steroid sulfatase deficiency.[10] Corneal opacities may be present but do not affect vision. Cryptorchidism is reported in some individuals.[2] Individuals with XLI appear at increased risk of developmental disorders such as autism and Attention Deficit Hyperactivity Disorder and some affected individuals exhibit mood problems [11] Mood problems in XLI appear to be most influenced by stigma or bullying associated with the skin condition, and by difficulties with treating the skin condition.[12] Blood-clotting abnormalities may occur more frequently in males with XLI and female carriers.[13] Individuals with XLI can exhibit intellectual disability, although this is thought to be due to deletions encompassing neighboring genes (e.g. VCX) in addition to STS.[14] The skin and medical conditions associated with XLI are likely to be due to perturbed basement membrane function and abnormal interactions with the extracellular matrix.[15] Knockdown of STS gene expression in human skin cell cultures affects pathways associated with skin function, brain and heart development, and blood-clotting that may be relevant for explaining the skin condition and increased likelihood of ADHD/autism, cardiac arrhythmias and disorders of hemostasis in XLI[16]

Female carriers generally do not experience any of these problems but can have difficulty during childbirth, as the STS expressed in the placenta plays a role in normal labor.[17] Female carriers may also be at slightly increased risk of developing mental health problems following childbirth [18] For these reasons carriers should ensure their obstetrician is aware of the condition.[citation needed]

Genetics edit

 
X linked ichthyosis - this boy has an infant brother and maternal uncle with the same condition

The STS gene is located on the X chromosome at band Xp22.3. Thus, the syndrome is an X-linked condition, and it affects males and females differently. The 23rd pair of chromosomes is typically termed the "sex chromosomes". Females have two X chromosomes and males have one X and one Y chromosome. Therefore, in normal individuals, males carry a single copy of the STS gene and females carry two copies. This gene partially escapes X-inactivation and females normally express higher amounts of the STS enzyme than males.[19]

XLI can occur through new deletions or mutations of the STS gene but is more commonly inherited from a carrier mother.[20] A hemizygous deletion or mutation of the STS gene in a male results in complete absence of enzyme activity, while a female carrier of a mutation or deletion is heterozygous and still has a normal copy of the STS gene. Female carriers of an STS deletion or mutation still express the STS enzyme, although with decreased enzyme activity.[21]

For this reason, XLI most commonly affects males, although individuals with numeric abnormalities of the sex chromosomes (45,X and 47,XXY) who also carry STS deletions or mutations would be exceptions to this rule.[citation needed]

In addition, a female could be affected if she were the offspring of an affected male and a carrier female and inherited a deletion or mutation of the STS gene on both X chromosomes.

Genetic counseling issues edit

Since the majority of cases appear to occur through transmission of an STS deletion from a carrier mother,[20] enzyme testing or DNA testing should be performed in the mother of any newly diagnosed simplex case (i.e. the first case in a family). In the case of an extended family with many affected individuals, carrier status can often be assigned based on pedigree analysis.

  • Males with XLI will transmit the X chromosome harboring the STS deletion or mutation to each of his female offspring, who will therefore be an obligate carrier. However, all male offspring will be unaffected, since they receive their father's Y chromosome.
  • Female carriers of an STS deletion or mutation have a 50% chance with each pregnancy of transmitting it to an offspring. Thus, each male offspring has a 50% chance of being affected by XLI, while each female offspring has a 50% chance of being a carrier for this condition. Any individual that inherits the mother's normal copy of the STS gene will be unaffected and will have an extremely low chance of having a child affected with this condition.

Due to random segregation of the chromosomes during gametogenesis, each pregnancy will be subject to the same probabilities, regardless of the number of previously affected or unaffected offspring. The above recurrence risks are based on the assumption that an affected male or carrier female will have children with an unaffected or non-carrier individual. The risks of having affected offspring would clearly increase in the case of a union between a male with XLI and a carrier female.

Physiology/biochemistry edit

 
DHEA sulfate

The STS enzyme (EC 3.1.6.2), also referred to as Arylsulfatase C, is expressed throughout the body, with highest expression in the skin, liver, lymph nodes, and placenta, and lower expression in breast tissue and brain[22] STS catalyzes the hydrolysis of sulfated steroids, such as estrone sulfate and dehydroepiandrosterone sulfate (DHEAS), to non-sulfated steroids estradiol and androstenediol, respectively.[23] Prenatally, the enzyme is involved in placental estrogen production.[24] The enzyme is also involved in adrenal steroid production as well as conversion of sulfated steroids in other tissues.[citation needed]

There seems to be a particularly important role for the enzyme in skin. Deficiency of the enzyme leads to the characteristic dry and scaly skin seen in ichthyosis. Recent research indicates that the skin abnormalities seen in XLI may be due to accumulation of cholesterol sulfate in the outer epidermis, leading to abnormal barrier function and corneocyte retention.[25]

Diagnosis edit

XLI can be suspected based on clinical findings, although symptoms can take varying amounts of time to become evident, from a few hours after birth, up to a year in milder cases. The diagnosis is usually made by a dermatologist, who also typically formulates the treatment plan (see below). STS enzyme deficiency is confirmed using a clinically available biochemical assay. Carrier detection can be performed in mothers of affected sons using this test (see Genetics, below).[21] Molecular testing for DNA deletions or mutations is also offered, and can be particularly useful in the evaluation of individuals with associated medical conditions (see below). Prenatal diagnosis is possible using either biochemical or molecular tests. However, the use of prenatal diagnosis for genetic conditions that are considered to be generally benign raises serious ethical considerations and requires detailed genetic counseling.[citation needed]

Treatment edit

Because XLI is caused by a gene mutation or deletion, there is no "cure." One of the aims of treatment is to reduce scaling by removing the excess, flaky scales, and keep the skin hydrated. This can be achieved using a variety of topical creams.[2][7] Other treatments involve

  • Keratolytic agents such as Ammonium lactate (Lac-Hydrin) are used to facilitate the release of retained corneocytes.
  • oral isotretinoin
  • acitretin[26]
  • The topical receptor-selective retinoid tazarotene [27]

Research is ongoing with regard to the use of gene therapy to treat XLI.[28] Timber Pharmaceuticals is planning on conducting a phase 3 trial of its investigational topical isotretinoin product in the second quarter of 2022 for the treatment of congential ichthyosis.[29]

History edit

In the 1960s, recessive x-linked ichthyosis was distinguished clinically from other ichthyoses.[30]: 486 [31]: 561 

See also edit

References edit

  1. ^ Rapini, Ronald P.; Bolognia, Jean L.; Jorizzo, Joseph L. (2007). Dermatology: 2-Volume Set. St. Louis: Mosby. ISBN 978-1-4160-2999-1.
  2. ^ a b c d Carlo Gelmetti; Caputo, Ruggero (2002). Pediatric Dermatology and Dermatopathology: A Concise Atlas. T&F STM. p. 160. ISBN 978-1-84184-120-5.
  3. ^ Online Mendelian Inheritance in Man (OMIM): ICHTHYOSIS, X-LINKED - 308100
  4. ^ a b Ballabio A, Parenti G, Carrozzo R, et al. (1987). "Isolation and characterization of a steroid sulfatase cDNA clone: genomic deletions in patients with X-chromosome-linked ichthyosis". Proc. Natl. Acad. Sci. U.S.A. 84 (13): 4519–23. Bibcode:1987PNAS...84.4519B. doi:10.1073/pnas.84.13.4519. PMC 305121. PMID 3474618.
  5. ^ Bonifas JM, Morley BJ, Oakey RE, Kan YW, Epstein EH (December 1987). "Cloning of a cDNA for steroid sulfatase: frequent occurrence of gene deletions in patients with recessive X chromosome-linked ichthyosis". Proc. Natl. Acad. Sci. U.S.A. 84 (24): 9248–51. Bibcode:1987PNAS...84.9248B. doi:10.1073/pnas.84.24.9248. PMC 299730. PMID 3480541.
  6. ^ Basler E, Grompe M, Parenti G, Yates J, Ballabio A (March 1992). "Identification of point mutations in the steroid sulfatase gene of three patients with X-linked ichthyosis". Am. J. Hum. Genet. 50 (3): 483–91. PMC 1684279. PMID 1539590.
  7. ^ a b Ichthyosis, X-Linked at eMedicine: Treatment Section
  8. ^ DiGiovanna JJ, Robinson-Bostom L (2003). "Ichthyosis: etiology, diagnosis, and management". Am J Clin Dermatol. 4 (2): 81–95. doi:10.2165/00128071-200304020-00002. PMID 12553849. S2CID 243176269.
  9. ^ Brcic, Lucija; Underwood, Jack FG; Kendall, Kimberley M.; Caseras, Xavier; Kirov, George; Davies, William (2020). "Medical and neurobehavioural phenotypes in carriers of X-linked ichthyosis-associated genetic deletions in the UK Biobank". Journal of Medical Genetics. 57 (10): 692–698. doi:10.1136/jmedgenet-2019-106676. PMC 7525778. PMID 32139392.
  10. ^ Wren G, Baker E, Underwood JFG, Humby T, Thompson AR, Kirov G, Escott-Price V, Davies W (2022) Characterising heart rhythm abnormalities associated with Xp22.31 deletion Journal of Medical Genetics PMID 36379544 doi:10.1136/jmg-2022-108862 URL:https://jmg.bmj.com/content/early/2022/11/15/jmg-2022-108862.long
  11. ^ Chatterjee S, Humby T, Davies W (2016) Behavioural and psychiatric phenotypes in men and boys with X-linked ichthyosis: evidence from a worldwide online survey. PLoS One 11(10):e0164417 PMID 27711218 doi:10.1371/journal.pone.0164417 URL: https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0164417
  12. ^ Wren G, Humby T, Thompson AR, Davies W (2022) Mood symptoms, neurodevelopmental traits, and their contributory factors in X-linked ichthyosis, ichthyosis vulgaris and psoriasis. Clinical and Experimental Dermatology PMID 35104372 doi:10.111/ced.15116 URL:https://doi.org/10.1111/ced.15116
  13. ^ Brcic L, Wren GH, Underwood JFG, Kirov G, Davies W (2022) Comorbid medical issues in X-linked ichthyosis. JID Innovations 2(3):100109 PMID:35330591 doi:10.1016/j.xjidi.2022.100109 URL: https://www.jidinnovations.org/article/S2667-0267(22)00016-9/fulltext
  14. ^ Van Esch H, Hollanders K, Badisco L, et al. (2005). "Deletion of VCX-A due to NAHR plays a major role in the occurrence of mental retardation in patients with X-linked ichthyosis". Hum. Mol. Genet. 14 (13): 1795–803. doi:10.1093/hmg/ddi186. PMID 15888481.
  15. ^ Wren GH, Davies W (2022) X-linked ichthyosis: New insights into a multi-system disorder Skin Health and Disease PMID:36479267 doi:10.1002/ski2.179 URL:https://onlinelibrary.wiley.com/doi/10.1002/ski2.179
  16. ^ McGeoghan F, Camera E, Maiellaro M, Menon M, Huang M, Dewan P, Ziaj S, Caley MP, Donaldson M, Enright AJ, O'Toole EA (2023) RNA sequencing and lipidomics uncovers novel pathomechanisms in recessive X-linked ichthyosis Frontiers in Molecular Biosciences 10:1176802 PMID:37363400 doi:10.3389/fmolb.2023.1176802 URL:https://www.frontiersin.org/articles/10.3389/fmolb.2023.1176802/full
  17. ^ Bradshaw KD, Carr BR (1986). "Placental sulfatase deficiency: maternal and fetal expression of steroid sulfatase deficiency and X-linked ichthyosis". Obstet Gynecol Surv. 41 (7): 401–13. PMID 3531932.
  18. ^ Cavenagh A, Chatterjee S, Davies W (2019) Behavioural and psychiatric phenotypes in female carriers of genetic mutations associated with X-linked ichthyosis. PLoS One 14(2):e0212330 PMID 30768640 doi:10.1371/journal.pone.0212330 URL:https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0212330
  19. ^ Lykkesfeldt G, Lykkesfeldt AE, Skakkebaek NE (1984). "Steroid sulphatase in man: a non inactivated X-locus with partial gene dosage compensation". Hum. Genet. 65 (4): 355–7. doi:10.1007/BF00291559. PMID 6582028. S2CID 2625156.
  20. ^ a b Valdes-Flores M, Kofman-Alfaro SH, Jimenez-Vaca AL, Cuevas-Covarrubias SA (August 2001). "Carrier identification by FISH analysis in isolated cases of X-linked ichthyosis". Am. J. Med. Genet. 102 (2): 146–8. doi:10.1002/ajmg.1450. PMID 11477606.
  21. ^ a b Cuevas-Covarrubias SA, Kofman-Alfaro S, Orozco Orozco E, Diaz-Zagoya JC (1995). "The biochemical identification of carrier state in mothers of sporadic cases of X-linked recessive ichthyosis". Genet. Couns. 6 (2): 103–7. PMID 7546451.
  22. ^ Selcer KW, Difrancesca HM, Chandra AB, Li PK (2007). "Immunohistochemical analysis of steroid sulfatase in human tissues". J. Steroid Biochem. Mol. Biol. 105 (1–5): 115–23. doi:10.1016/j.jsbmb.2006.12.105. PMID 17604157. S2CID 22124602.
  23. ^ Reed MJ, Purohit A, Woo LW, Newman SP, Potter BV (April 2005). "Steroid sulfatase: molecular biology, regulation, and inhibition". Endocr. Rev. 26 (2): 171–202. doi:10.1210/er.2004-0003. PMID 15561802.
  24. ^ Jöbsis AC, De Groot WP, Tigges AJ, et al. (1980). "X-linked ichthyosis and X-linked placental sulfatase deficiency: a disease entity. Histochemical observations". Am. J. Pathol. 99 (2): 279–89. PMC 1903491. PMID 6929654.
  25. ^ Elias PM, Crumrine D, Rassner U, et al. (2004). "Basis for abnormal desquamation and permeability barrier dysfunction in RXLI". J. Invest. Dermatol. 122 (2): 314–9. doi:10.1046/j.1523-1747.2003.22258.x. PMID 15009711.
  26. ^ Bruckner-Tuderman, Leena; Sigg, Christian; Geiger, Jean-Marie; Gilardi, Stefano (1988-04-01). "Acitretin in the Symptomatic Therapy for Severe Recessive X-linked Ichthyosis". Archives of Dermatology. 124 (4): 529–532. doi:10.1001/archderm.1988.01670040031017. ISSN 0003-987X. PMID 2965549.
  27. ^ Cotellessa C, Cuevas-Covarrubias SA, Valeri P, Fargnoli MC, Peris K (2005). "Topical tazarotene 0.05% versus glycolic acid 70% treatment in X-linked ichthyosis due to extensive deletion of the STS gene". Acta Derm. Venereol. 85 (4): 346–8. doi:10.1080/00015550510026613. PMID 16191859.
  28. ^ Freiberg RA, Choate KA, Deng H, Alperin ES, Shapiro LJ, Khavari PA (1997). "A model of corrective gene transfer in X-linked ichthyosis". Hum. Mol. Genet. 6 (6): 927–33. doi:10.1093/hmg/6.6.927. PMID 9175741.
  29. ^ "Press Releases". Timber. Retrieved 2022-04-03.
  30. ^ Freedberg, et al. (2003). Fitzpatrick's Dermatology in General Medicine. (6th ed.). McGraw-Hill. ISBN 0-07-138076-0.
  31. ^ James, William; Berger, Timothy; Elston, Dirk (2005). Andrews' Diseases of the Skin: Clinical Dermatology. (10th ed.). Saunders. ISBN 0-7216-2921-0.

External links edit

December 15, 2023
linked, ichthyosis, abbreviated, skin, condition, caused, hereditary, deficiency, steroid, sulfatase, enzyme, that, affects, 2000, 6000, males, manifests, with, scaly, skin, deletions, mutations, gene, also, occur, context, larger, deletions, causing, contiguo. X linked ichthyosis abbreviated XLI is a skin condition caused by the hereditary deficiency of the steroid sulfatase STS enzyme that affects 1 in 2000 to 1 in 6000 males 2 XLI manifests with dry scaly skin 3 and is due to deletions 4 5 or mutations 6 in the STS gene XLI can also occur in the context of larger deletions causing contiguous gene syndromes 4 Treatment is largely aimed at alleviating the skin symptoms 7 The term is from the Ancient Greek ichthys meaning fish X linked ichthyosisOther namesSteroid sulfatase deficiency X linked recessive ichthyosis 1 X linked recessive inheritance Affected boys may inherit a deletion or mutation of the STS gene from their mothersSpecialtyMedical genetics Contents 1 Signs and symptoms 1 1 Associated medical conditions 2 Genetics 2 1 Genetic counseling issues 2 2 Physiology biochemistry 3 Diagnosis 4 Treatment 5 History 6 See also 7 References 8 External linksSigns and symptoms edit nbsp X linked ichthyosisThe major symptoms of XLI include scaling of the skin particularly on the neck trunk and lower extremities The extensor surfaces are typically the most severely affected areas The gt 4 mm diameter scales adhere to the underlying skin and can be dark brown or gray in color Symptoms may subside during the summer 2 Associated medical conditions edit Aside from the skin scaling XLI is not typically associated with other major medical problems 8 Atrial fibrillation or atrial flutter may affect up to 1 in 10 males with XLI 9 Heart rhythm abnormalities in individuals with XLI tend to co occur with disorders of the gastrointestinal tract and are likely to result from steroid sulfatase deficiency 10 Corneal opacities may be present but do not affect vision Cryptorchidism is reported in some individuals 2 Individuals with XLI appear at increased risk of developmental disorders such as autism and Attention Deficit Hyperactivity Disorder and some affected individuals exhibit mood problems 11 Mood problems in XLI appear to be most influenced by stigma or bullying associated with the skin condition and by difficulties with treating the skin condition 12 Blood clotting abnormalities may occur more frequently in males with XLI and female carriers 13 Individuals with XLI can exhibit intellectual disability although this is thought to be due to deletions encompassing neighboring genes e g VCX in addition to STS 14 The skin and medical conditions associated with XLI are likely to be due to perturbed basement membrane function and abnormal interactions with the extracellular matrix 15 Knockdown of STS gene expression in human skin cell cultures affects pathways associated with skin function brain and heart development and blood clotting that may be relevant for explaining the skin condition and increased likelihood of ADHD autism cardiac arrhythmias and disorders of hemostasis in XLI 16 Female carriers generally do not experience any of these problems but can have difficulty during childbirth as the STS expressed in the placenta plays a role in normal labor 17 Female carriers may also be at slightly increased risk of developing mental health problems following childbirth 18 For these reasons carriers should ensure their obstetrician is aware of the condition citation needed Genetics edit nbsp X linked ichthyosis this boy has an infant brother and maternal uncle with the same conditionThe STS gene is located on the X chromosome at band Xp22 3 Thus the syndrome is an X linked condition and it affects males and females differently The 23rd pair of chromosomes is typically termed the sex chromosomes Females have two X chromosomes and males have one X and one Y chromosome Therefore in normal individuals males carry a single copy of the STS gene and females carry two copies This gene partially escapes X inactivation and females normally express higher amounts of the STS enzyme than males 19 XLI can occur through new deletions or mutations of the STS gene but is more commonly inherited from a carrier mother 20 A hemizygous deletion or mutation of the STS gene in a male results in complete absence of enzyme activity while a female carrier of a mutation or deletion is heterozygous and still has a normal copy of the STS gene Female carriers of an STS deletion or mutation still express the STS enzyme although with decreased enzyme activity 21 For this reason XLI most commonly affects males although individuals with numeric abnormalities of the sex chromosomes 45 X and 47 XXY who also carry STS deletions or mutations would be exceptions to this rule citation needed In addition a female could be affected if she were the offspring of an affected male and a carrier female and inherited a deletion or mutation of the STS gene on both X chromosomes Genetic counseling issues edit Since the majority of cases appear to occur through transmission of an STS deletion from a carrier mother 20 enzyme testing or DNA testing should be performed in the mother of any newly diagnosed simplex case i e the first case in a family In the case of an extended family with many affected individuals carrier status can often be assigned based on pedigree analysis Males with XLI will transmit the X chromosome harboring the STS deletion or mutation to each of his female offspring who will therefore be an obligate carrier However all male offspring will be unaffected since they receive their father s Y chromosome Female carriers of an STS deletion or mutation have a 50 chance with each pregnancy of transmitting it to an offspring Thus each male offspring has a 50 chance of being affected by XLI while each female offspring has a 50 chance of being a carrier for this condition Any individual that inherits the mother s normal copy of the STS gene will be unaffected and will have an extremely low chance of having a child affected with this condition Due to random segregation of the chromosomes during gametogenesis each pregnancy will be subject to the same probabilities regardless of the number of previously affected or unaffected offspring The above recurrence risks are based on the assumption that an affected male or carrier female will have children with an unaffected or non carrier individual The risks of having affected offspring would clearly increase in the case of a union between a male with XLI and a carrier female Physiology biochemistry edit nbsp DHEA sulfateThe STS enzyme EC 3 1 6 2 also referred to as Arylsulfatase C is expressed throughout the body with highest expression in the skin liver lymph nodes and placenta and lower expression in breast tissue and brain 22 STS catalyzes the hydrolysis of sulfated steroids such as estrone sulfate and dehydroepiandrosterone sulfate DHEAS to non sulfated steroids estradiol and androstenediol respectively 23 Prenatally the enzyme is involved in placental estrogen production 24 The enzyme is also involved in adrenal steroid production as well as conversion of sulfated steroids in other tissues citation needed There seems to be a particularly important role for the enzyme in skin Deficiency of the enzyme leads to the characteristic dry and scaly skin seen in ichthyosis Recent research indicates that the skin abnormalities seen in XLI may be due to accumulation of cholesterol sulfate in the outer epidermis leading to abnormal barrier function and corneocyte retention 25 Diagnosis editXLI can be suspected based on clinical findings although symptoms can take varying amounts of time to become evident from a few hours after birth up to a year in milder cases The diagnosis is usually made by a dermatologist who also typically formulates the treatment plan see below STS enzyme deficiency is confirmed using a clinically available biochemical assay Carrier detection can be performed in mothers of affected sons using this test see Genetics below 21 Molecular testing for DNA deletions or mutations is also offered and can be particularly useful in the evaluation of individuals with associated medical conditions see below Prenatal diagnosis is possible using either biochemical or molecular tests However the use of prenatal diagnosis for genetic conditions that are considered to be generally benign raises serious ethical considerations and requires detailed genetic counseling citation needed Treatment editBecause XLI is caused by a gene mutation or deletion there is no cure One of the aims of treatment is to reduce scaling by removing the excess flaky scales and keep the skin hydrated This can be achieved using a variety of topical creams 2 7 Other treatments involve Keratolytic agents such as Ammonium lactate Lac Hydrin are used to facilitate the release of retained corneocytes oral isotretinoin acitretin 26 The topical receptor selective retinoid tazarotene 27 Research is ongoing with regard to the use of gene therapy to treat XLI 28 Timber Pharmaceuticals is planning on conducting a phase 3 trial of its investigational topical isotretinoin product in the second quarter of 2022 for the treatment of congential ichthyosis 29 History editIn the 1960s recessive x linked ichthyosis was distinguished clinically from other ichthyoses 30 486 31 561 See also editIchthyosis Carvajal syndromeReferences edit Rapini Ronald P Bolognia Jean L Jorizzo Joseph L 2007 Dermatology 2 Volume Set St Louis Mosby ISBN 978 1 4160 2999 1 a b c d Carlo Gelmetti Caputo Ruggero 2002 Pediatric Dermatology and Dermatopathology A Concise Atlas T amp F STM p 160 ISBN 978 1 84184 120 5 Online Mendelian Inheritance in Man OMIM ICHTHYOSIS X LINKED 308100 a b Ballabio A Parenti G Carrozzo R et al 1987 Isolation and characterization of a steroid sulfatase cDNA clone genomic deletions in patients with X chromosome linked ichthyosis Proc Natl Acad Sci U S A 84 13 4519 23 Bibcode 1987PNAS 84 4519B doi 10 1073 pnas 84 13 4519 PMC 305121 PMID 3474618 Bonifas JM Morley BJ Oakey RE Kan YW Epstein EH December 1987 Cloning of a cDNA for steroid sulfatase frequent occurrence of gene deletions in patients with recessive X chromosome linked ichthyosis Proc Natl Acad Sci U S A 84 24 9248 51 Bibcode 1987PNAS 84 9248B doi 10 1073 pnas 84 24 9248 PMC 299730 PMID 3480541 Basler E Grompe M Parenti G Yates J Ballabio A March 1992 Identification of point mutations in the steroid sulfatase gene of three patients with X linked ichthyosis Am J Hum Genet 50 3 483 91 PMC 1684279 PMID 1539590 a b Ichthyosis X Linked at eMedicine Treatment Section DiGiovanna JJ Robinson Bostom L 2003 Ichthyosis etiology diagnosis and management Am J Clin Dermatol 4 2 81 95 doi 10 2165 00128071 200304020 00002 PMID 12553849 S2CID 243176269 Brcic Lucija Underwood Jack FG Kendall Kimberley M Caseras Xavier Kirov George Davies William 2020 Medical and neurobehavioural phenotypes in carriers of X linked ichthyosis associated genetic deletions in the UK Biobank Journal of Medical Genetics 57 10 692 698 doi 10 1136 jmedgenet 2019 106676 PMC 7525778 PMID 32139392 Wren G Baker E Underwood JFG Humby T Thompson AR Kirov G Escott Price V Davies W 2022 Characterising heart rhythm abnormalities associated with Xp22 31 deletion Journal of Medical Genetics PMID 36379544 doi 10 1136 jmg 2022 108862 URL https jmg bmj com content early 2022 11 15 jmg 2022 108862 long Chatterjee S Humby T Davies W 2016 Behavioural and psychiatric phenotypes in men and boys with X linked ichthyosis evidence from a worldwide online survey PLoS One 11 10 e0164417 PMID 27711218 doi 10 1371 journal pone 0164417 URL https journals plos org plosone article id 10 1371 journal pone 0164417 Wren G Humby T Thompson AR Davies W 2022 Mood symptoms neurodevelopmental traits and their contributory factors in X linked ichthyosis ichthyosis vulgaris and psoriasis Clinical and Experimental Dermatology PMID 35104372 doi 10 111 ced 15116 URL https doi org 10 1111 ced 15116 Brcic L Wren GH Underwood JFG Kirov G Davies W 2022 Comorbid medical issues in X linked ichthyosis JID Innovations 2 3 100109 PMID 35330591 doi 10 1016 j xjidi 2022 100109 URL https www jidinnovations org article S2667 0267 22 00016 9 fulltext Van Esch H Hollanders K Badisco L et al 2005 Deletion of VCX A due to NAHR plays a major role in the occurrence of mental retardation in patients with X linked ichthyosis Hum Mol Genet 14 13 1795 803 doi 10 1093 hmg ddi186 PMID 15888481 Wren GH Davies W 2022 X linked ichthyosis New insights into a multi system disorder Skin Health and Disease PMID 36479267 doi 10 1002 ski2 179 URL https onlinelibrary wiley com doi 10 1002 ski2 179 McGeoghan F Camera E Maiellaro M Menon M Huang M Dewan P Ziaj S Caley MP Donaldson M Enright AJ O Toole EA 2023 RNA sequencing and lipidomics uncovers novel pathomechanisms in recessive X linked ichthyosis Frontiers in Molecular Biosciences 10 1176802 PMID 37363400 doi 10 3389 fmolb 2023 1176802 URL https www frontiersin org articles 10 3389 fmolb 2023 1176802 full Bradshaw KD Carr BR 1986 Placental sulfatase deficiency maternal and fetal expression of steroid sulfatase deficiency and X linked ichthyosis Obstet Gynecol Surv 41 7 401 13 PMID 3531932 Cavenagh A Chatterjee S Davies W 2019 Behavioural and psychiatric phenotypes in female carriers of genetic mutations associated with X linked ichthyosis PLoS One 14 2 e0212330 PMID 30768640 doi 10 1371 journal pone 0212330 URL https journals plos org plosone article id 10 1371 journal pone 0212330 Lykkesfeldt G Lykkesfeldt AE Skakkebaek NE 1984 Steroid sulphatase in man a non inactivated X locus with partial gene dosage compensation Hum Genet 65 4 355 7 doi 10 1007 BF00291559 PMID 6582028 S2CID 2625156 a b Valdes Flores M Kofman Alfaro SH Jimenez Vaca AL Cuevas Covarrubias SA August 2001 Carrier identification by FISH analysis in isolated cases of X linked ichthyosis Am J Med Genet 102 2 146 8 doi 10 1002 ajmg 1450 PMID 11477606 a b Cuevas Covarrubias SA Kofman Alfaro S Orozco Orozco E Diaz Zagoya JC 1995 The biochemical identification of carrier state in mothers of sporadic cases of X linked recessive ichthyosis Genet Couns 6 2 103 7 PMID 7546451 Selcer KW Difrancesca HM Chandra AB Li PK 2007 Immunohistochemical analysis of steroid sulfatase in human tissues J Steroid Biochem Mol Biol 105 1 5 115 23 doi 10 1016 j jsbmb 2006 12 105 PMID 17604157 S2CID 22124602 Reed MJ Purohit A Woo LW Newman SP Potter BV April 2005 Steroid sulfatase molecular biology regulation and inhibition Endocr Rev 26 2 171 202 doi 10 1210 er 2004 0003 PMID 15561802 Jobsis AC De Groot WP Tigges AJ et al 1980 X linked ichthyosis and X linked placental sulfatase deficiency a disease entity Histochemical observations Am J Pathol 99 2 279 89 PMC 1903491 PMID 6929654 Elias PM Crumrine D Rassner U et al 2004 Basis for abnormal desquamation and permeability barrier dysfunction in RXLI J Invest Dermatol 122 2 314 9 doi 10 1046 j 1523 1747 2003 22258 x PMID 15009711 Bruckner Tuderman Leena Sigg Christian Geiger Jean Marie Gilardi Stefano 1988 04 01 Acitretin in the Symptomatic Therapy for Severe Recessive X linked Ichthyosis Archives of Dermatology 124 4 529 532 doi 10 1001 archderm 1988 01670040031017 ISSN 0003 987X PMID 2965549 Cotellessa C Cuevas Covarrubias SA Valeri P Fargnoli MC Peris K 2005 Topical tazarotene 0 05 versus glycolic acid 70 treatment in X linked ichthyosis due to extensive deletion of the STS gene Acta Derm Venereol 85 4 346 8 doi 10 1080 00015550510026613 PMID 16191859 Freiberg RA Choate KA Deng H Alperin ES Shapiro LJ Khavari PA 1997 A model of corrective gene transfer in X linked ichthyosis Hum Mol Genet 6 6 927 33 doi 10 1093 hmg 6 6 927 PMID 9175741 Press Releases Timber Retrieved 2022 04 03 Freedberg et al 2003 Fitzpatrick s Dermatology in General Medicine 6th ed McGraw Hill ISBN 0 07 138076 0 James William Berger Timothy Elston Dirk 2005 Andrews Diseases of the Skin Clinical Dermatology 10th ed Saunders ISBN 0 7216 2921 0 External links edit Retrieved from https en wikipedia org w index php title X linked ichthyosis amp oldid 1164441870, wikipedia, wiki, book, books, library,

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