Entry - #148370 - KERATOLYTIC WINTER ERYTHEMA; KWE - OMIM

 
ICD+
# 148370

KERATOLYTIC WINTER ERYTHEMA; KWE


Alternative titles; symbols

OUDTSHOORN SKIN DISEASE


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
8p23.1 Keratolytic winter erythema 148370 AD 4 CTSB 116810
Clinical Synopsis
 

INHERITANCE
- Autosomal dominant
SKIN, NAILS, & HAIR
Skin
- Cyclical centrifugal peeling of skin (palmoplantar surfaces)
- Erythematous base under peeling skin
- Hyperhidrosis of palms and soles
- Superficial dry blisters
- Well-demarcated erythematous border (in some patients)
- Diffuse erythema of palms and soles (in some patients)
- Annular erythema of limbs and/or buttocks (uncommon)
- Annular lesions on trunk (rare)
Skin Histology
- Focal areas of mild spongiosis that spread centrifugally
- Compact parakeratotic layer under stratum corneum
- Proliferation of basal keratinocytes, forming new strata granulosa and corneum
- Split occurs above newly regenerated orthokeratotic stratum corneum
Electron Microscopy
- Greatly expanded intercellular spaces
- Free-floating desmosomes
- Intracristal swelling with denser matrix in keratinocyte mitochondria
- Perinuclear electron-lucid vacuoles
MISCELLANEOUS
- Onset from infancy to early adulthood
- Triggered by exposure to water and moist conditions
- Exacerbated by cold weather (in some patients)
- Intrafamilial severity and course highly variable
- Amelioration in adulthood (in some patients)
MOLECULAR BASIS
- Caused by tandem duplication (7.6-15.9 kb) upstream of CTSB (116810) that disrupts a cis-acting regulatory element affecting expression of CTSB
▲ Close

TEXT

A number sign (#) is used with this entry because of evidence that keratolytic winter erythema (KWE) is caused by heterozygous duplication in a cis-acting regulatory element enhancer upstream of the CTSB gene (116810) on chromosome 8p23.

Description

Keratolytic winter erythema, also known as Oudtshoorn skin disease, manifests during childhood with recurrent episodes of palmoplantar erythema and centrifugal epidermal peeling. Lateral and dorsal aspects of the hands and feet can be involved. A less common finding is a slowly migratory, annular erythema that is seen mostly on the extremities. Between flares, the skin may appear unremarkable. Hyperhidrosis, associated with a pungent odor, is invariably present, and itching can occur. Peeling is preceded by the formation of dry blisters due to keratolysis, whereas formation of vesicles or bullae is rare. Cold weather, moisture, febrile diseases, and physical and mental stress can trigger exacerbations. In severely affected individuals, skin manifestations persist unremittingly. Penetrance of the disease is high, but expressivity is variable, even within the same family (summary by Ngcungcu et al., 2017).


Clinical Features

Findlay et al. (1977) observed a large number of individuals in South Africa with a hitherto undescribed inherited dermatosis traceable to certain 19th-century inhabitants of the province of Oudtshoorn. The disorder consisted of intermittent and recurrent centrifugal peeling with redness, particularly of the palms and soles. In more severe cases, similar patches were found extending up the limbs to the buttocks and the trunk. In most patients the disorder caused moderate inconvenience, but in some patients the disorder was incapacitating. The age of onset varied from infancy to early adulthood. It tended to subside in intensity after age 30. A striking feature was the onset and recurrence with cold weather, starting in March or April and continuing through the winter until August to October.

Starfield et al. (1997) referred to an apparently 'spontaneous' (new mutation) form of KWE reported in a 4-year-old girl with unusually severe involvement of the trunk (Krahl et al., 1994).

Huntington and Jassim (2006) reported a 12-year-old Norwegian girl with chronic, recurrent, painless nonpruritic palmar peeling that appeared in late autumn and resolved over the summer. Examination revealed thick hyperkeratotic cracking palms, but otherwise findings were normal. Her brother and a male cousin, as well as her paternal grandfather, were similarly affected; her father exhibited only subtle peeling of his fingertips. Skin biopsy of affected skin showed a thickened hyperkeratotic crust, mild acanthosis of the epidermis, and spotty areas of superficial perivascular chronic inflammation in the dermis. The authors concluded that these changes were consistent with Outdshoorn skin disease.


Inheritance

The transmission pattern of Oudtshoorn skin disease in the families reported by Findlay et al. (1977) was consistent with autosomal dominant inheritance.


Population Genetics

The prevalence of the disorder in the South African Afrikaans-speaking Caucasoid population was estimated to be 1 in 7,000 (Starfield et al., 1997).

Noting that all South African families with KWE could be traced back to Captain Francois Renier Duminy, born in Lorient, France, in 1747, Ngcungcu et al. (2017) stated that this founder effect resulted in the high prevalence of KWE in white Africaans speakers.


Mapping

Starfield et al. (1997) performed linkage studies in South African families and in a large German family and found linkage to the microsatellite marker D8S550 on chromosome 8p23-p22. Haplotype analysis supported a founder effect in the South African KWE families; the chromosome segregating with the disease in the German family demonstrated a different haplotype, suggesting that these chromosomes did not have a common origin.

Appel et al. (2002) constructed a physical and transcription map of the critical region for KWE using exon trapping, cDNA selection, genomic sequencing, and sequence analyses. A BAC contig located between the markers D8S550 and D8S1759 was constructed, generating a genomic sequence of 634 kb.

In a Norwegian family with KWE (family D), Ngcungcu et al. (2017) found significant linkage (maximum lod score, 3.3) between KWE and an approximately 6.6-Mb region (chr8:9,231,148-15,837,977, GRCh37) encompassing the KWE critical region.

Exclusion Studies

Reis (1994) demonstrated that KWE is not linked to the keratin clusters on chromosome 12 or chromosome 17.

Huntington and Jassim (2006) analyzed the markers D8S550 and D8S265 in a Norwegian family with KWE, but found that affected members did not share a common haplotype. The authors concluded that the disease in the Norwegian family must be due to a different gene than that of the previously reported South African families with KWE.


Molecular Genetics

In 7 South African families with KWE (families A, B, C, F, G, H, and I), Ngcungcu et al. (2017) identified a noncoding 7.67-kb tandem duplication within the KWE critical region on chromosome 8 that segregated with disease and was not found in 127 controls. In 2 Norwegian families with KWE (families D and E), they identified a 15.93-kb tandem duplication on chromosome 8 that segregated with disease and overlapped the South African duplication. Both duplications were located upstream of the CTSB gene (116810), and the 2.62-kb region of overlap encompasses an active enhancer element in keratinocytes that was shown to be associated with increased epidermal expression of CTSB.

Exclusion Studies

Appel et al. (2002) identified 12 transcripts within the critical region for KWE and analyzed their expression patterns by RT-PCR. One of the transcripts corresponded to the B-lymphocyte specific tyrosine kinase gene (BLK; 191305), and another corresponded to the myotubularin-related protein 8 gene (MTMR8; 606260). Each exon belonging to a transcript was screened for mutations by direct sequencing of genomic DNA from KWE patients of the German pedigree, previously linked to this region by Starfield et al. (1997). No potentially pathogenic mutation was identified in any of these transcripts.

In 4 South African families with KWE mapping to 8p23.1-p22 (designated KWE23, KWE36, KWE46, and KWE50), in which haplotype analysis was consistent with a founder effect, Hobbs et al. (2012) excluded the candidate genes CTSB (116810) and FDFT1 (184420).

Hull et al. (2013) screened the DUB3 gene (USP17L2; 610186) in KWE-affected individuals from 4 South African families and identified no pathogenic mutations.


REFERENCES

  1. Appel, S., Filter, M., Reis, A., Hennies, H. C., Bergheim, A., Ogilvie, E., Arndt, S., Simmons, A., Lovett, M., Hide, W., Ramsay, M., Reichwald, K., Zimmermann, W., Rosenthal, A. Physical and transcriptional map of the critical region for keratolytic winter erythema (KWE) on chromosome 8p22-p23 between D8S550 and D8S1759. Europ. J. Hum. Genet. 10: 17-25, 2002. [PubMed: 11896452, related citations] [Full Text]

  2. Findlay, G. H., Nurse, G. T., Heyl, T., Hull, P. R., Jenkins, T., Klevansky, H., Morrison, J. G. L., Sher, J., Schultz, E. J., Swart, E., Venter, I. J., Whiting, D. A. Keratolytic winter erythema of 'Oudtshoorn skin': a newly recognized inherited dermatosis prevalent in South Africa. S. Afr. Med. J. 52: 871-874, 1977. [PubMed: 607500, related citations]

  3. Hobbs, A., Aron, S., Hartshorne, S., Hull, P. R., Ramsay, M. Exclusion of CTSB and FDFT1 as positional and functional candidate genes for keratolytic winter erythema (KWE). J. Derm. Sci. 265: 58-62, 2012.

  4. Hull, P. R., Hobbs, A., Aron, S., Ramsay, M. The elusive gene for keratolytic winter erythema. S. Afr. Med. J. 103: 961-965, 2013. [PubMed: 24300638, related citations] [Full Text]

  5. Huntington, M. K., Jassim, A. D. Genetic heterogeneity in keratolytic winter erythema (Oudtshoorn skin disease). Arch Derm. 142: 1073-1074, 2006. [PubMed: 16924068, related citations] [Full Text]

  6. Krahl, D., Sigwart, A., Hartschuh, W., Anton-Lamprecht, I., Petzoldt, D. Erythrokeratolysis hiemalis: Erythematosquamose Genodermatose mit saisonaler Manifestation Hautarzt 45: 776-779, 1994. [PubMed: 7822203, related citations]

  7. Ngcungcu, T., Oti, M., Sitek, J. C., Haukanes, B. I., Linghu, B., Bruccoleri, R., Stokowy, T., Oakeley, E. J., Yang, F., Zhu, J., Sultan, M., Schalwijk, J., and 17 others. Duplicated enhancer region increases expression of CTSB and segregates with keratolytic winter erythema in South African and Norwegian families. Am. J. Hum. Genet. 100: 737-750, 2017. [PubMed: 28457472, related citations] [Full Text]

  8. Reis, A. Personal Communication. Berlin, Germany 3/28/1994.

  9. Starfield, M., Hennies, H. C., Jung, M., Jenkins, T., Wienker, T., Hull, P., Spurdle, A., Kuster, W., Ramsay, M., Reis, A. Localization of the gene causing keratolytic winter erythema to chromosome 8p22-p23, and evidence for a founder effect in South African Afrikaans-speakers. Am. J. Hum. Genet. 61: 370-378, 1997. [PubMed: 9311742, related citations] [Full Text]


Contributors:
Marla J. F. O'Neill - updated : 08/28/2018
Carol A. Bocchini - updated : 10/7/2014
Michael B. Petersen - updated : 8/29/2002
Victor A. McKusick - updated : 9/24/1997
Creation Date:
Victor A. McKusick : 1/3/1991
Edit History:
carol : 08/29/2018
carol : 08/28/2018
carol : 04/17/2017
carol : 10/07/2014
carol : 10/7/2014
carol : 3/18/2004
alopez : 3/11/2003
cwells : 8/29/2002
dholmes : 10/6/1997
terry : 9/30/1997
terry : 9/24/1997
alopez : 3/19/1997
mimadm : 11/5/1994
carol : 5/16/1994
supermim : 3/16/1992
carol : 1/3/1991

# 148370

KERATOLYTIC WINTER ERYTHEMA; KWE


Alternative titles; symbols

OUDTSHOORN SKIN DISEASE


SNOMEDCT: 239064000;   ORPHA: 50943;  


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
8p23.1 Keratolytic winter erythema 148370 Autosomal dominant 4 CTSB 116810

TEXT

A number sign (#) is used with this entry because of evidence that keratolytic winter erythema (KWE) is caused by heterozygous duplication in a cis-acting regulatory element enhancer upstream of the CTSB gene (116810) on chromosome 8p23.

Description

Keratolytic winter erythema, also known as Oudtshoorn skin disease, manifests during childhood with recurrent episodes of palmoplantar erythema and centrifugal epidermal peeling. Lateral and dorsal aspects of the hands and feet can be involved. A less common finding is a slowly migratory, annular erythema that is seen mostly on the extremities. Between flares, the skin may appear unremarkable. Hyperhidrosis, associated with a pungent odor, is invariably present, and itching can occur. Peeling is preceded by the formation of dry blisters due to keratolysis, whereas formation of vesicles or bullae is rare. Cold weather, moisture, febrile diseases, and physical and mental stress can trigger exacerbations. In severely affected individuals, skin manifestations persist unremittingly. Penetrance of the disease is high, but expressivity is variable, even within the same family (summary by Ngcungcu et al., 2017).


Clinical Features

Findlay et al. (1977) observed a large number of individuals in South Africa with a hitherto undescribed inherited dermatosis traceable to certain 19th-century inhabitants of the province of Oudtshoorn. The disorder consisted of intermittent and recurrent centrifugal peeling with redness, particularly of the palms and soles. In more severe cases, similar patches were found extending up the limbs to the buttocks and the trunk. In most patients the disorder caused moderate inconvenience, but in some patients the disorder was incapacitating. The age of onset varied from infancy to early adulthood. It tended to subside in intensity after age 30. A striking feature was the onset and recurrence with cold weather, starting in March or April and continuing through the winter until August to October.

Starfield et al. (1997) referred to an apparently 'spontaneous' (new mutation) form of KWE reported in a 4-year-old girl with unusually severe involvement of the trunk (Krahl et al., 1994).

Huntington and Jassim (2006) reported a 12-year-old Norwegian girl with chronic, recurrent, painless nonpruritic palmar peeling that appeared in late autumn and resolved over the summer. Examination revealed thick hyperkeratotic cracking palms, but otherwise findings were normal. Her brother and a male cousin, as well as her paternal grandfather, were similarly affected; her father exhibited only subtle peeling of his fingertips. Skin biopsy of affected skin showed a thickened hyperkeratotic crust, mild acanthosis of the epidermis, and spotty areas of superficial perivascular chronic inflammation in the dermis. The authors concluded that these changes were consistent with Outdshoorn skin disease.


Inheritance

The transmission pattern of Oudtshoorn skin disease in the families reported by Findlay et al. (1977) was consistent with autosomal dominant inheritance.


Population Genetics

The prevalence of the disorder in the South African Afrikaans-speaking Caucasoid population was estimated to be 1 in 7,000 (Starfield et al., 1997).

Noting that all South African families with KWE could be traced back to Captain Francois Renier Duminy, born in Lorient, France, in 1747, Ngcungcu et al. (2017) stated that this founder effect resulted in the high prevalence of KWE in white Africaans speakers.


Mapping

Starfield et al. (1997) performed linkage studies in South African families and in a large German family and found linkage to the microsatellite marker D8S550 on chromosome 8p23-p22. Haplotype analysis supported a founder effect in the South African KWE families; the chromosome segregating with the disease in the German family demonstrated a different haplotype, suggesting that these chromosomes did not have a common origin.

Appel et al. (2002) constructed a physical and transcription map of the critical region for KWE using exon trapping, cDNA selection, genomic sequencing, and sequence analyses. A BAC contig located between the markers D8S550 and D8S1759 was constructed, generating a genomic sequence of 634 kb.

In a Norwegian family with KWE (family D), Ngcungcu et al. (2017) found significant linkage (maximum lod score, 3.3) between KWE and an approximately 6.6-Mb region (chr8:9,231,148-15,837,977, GRCh37) encompassing the KWE critical region.

Exclusion Studies

Reis (1994) demonstrated that KWE is not linked to the keratin clusters on chromosome 12 or chromosome 17.

Huntington and Jassim (2006) analyzed the markers D8S550 and D8S265 in a Norwegian family with KWE, but found that affected members did not share a common haplotype. The authors concluded that the disease in the Norwegian family must be due to a different gene than that of the previously reported South African families with KWE.


Molecular Genetics

In 7 South African families with KWE (families A, B, C, F, G, H, and I), Ngcungcu et al. (2017) identified a noncoding 7.67-kb tandem duplication within the KWE critical region on chromosome 8 that segregated with disease and was not found in 127 controls. In 2 Norwegian families with KWE (families D and E), they identified a 15.93-kb tandem duplication on chromosome 8 that segregated with disease and overlapped the South African duplication. Both duplications were located upstream of the CTSB gene (116810), and the 2.62-kb region of overlap encompasses an active enhancer element in keratinocytes that was shown to be associated with increased epidermal expression of CTSB.

Exclusion Studies

Appel et al. (2002) identified 12 transcripts within the critical region for KWE and analyzed their expression patterns by RT-PCR. One of the transcripts corresponded to the B-lymphocyte specific tyrosine kinase gene (BLK; 191305), and another corresponded to the myotubularin-related protein 8 gene (MTMR8; 606260). Each exon belonging to a transcript was screened for mutations by direct sequencing of genomic DNA from KWE patients of the German pedigree, previously linked to this region by Starfield et al. (1997). No potentially pathogenic mutation was identified in any of these transcripts.

In 4 South African families with KWE mapping to 8p23.1-p22 (designated KWE23, KWE36, KWE46, and KWE50), in which haplotype analysis was consistent with a founder effect, Hobbs et al. (2012) excluded the candidate genes CTSB (116810) and FDFT1 (184420).

Hull et al. (2013) screened the DUB3 gene (USP17L2; 610186) in KWE-affected individuals from 4 South African families and identified no pathogenic mutations.


REFERENCES

  1. Appel, S., Filter, M., Reis, A., Hennies, H. C., Bergheim, A., Ogilvie, E., Arndt, S., Simmons, A., Lovett, M., Hide, W., Ramsay, M., Reichwald, K., Zimmermann, W., Rosenthal, A. Physical and transcriptional map of the critical region for keratolytic winter erythema (KWE) on chromosome 8p22-p23 between D8S550 and D8S1759. Europ. J. Hum. Genet. 10: 17-25, 2002. [PubMed: 11896452] [Full Text: https://doi.org/10.1038/sj.ejhg.5200750]

  2. Findlay, G. H., Nurse, G. T., Heyl, T., Hull, P. R., Jenkins, T., Klevansky, H., Morrison, J. G. L., Sher, J., Schultz, E. J., Swart, E., Venter, I. J., Whiting, D. A. Keratolytic winter erythema of 'Oudtshoorn skin': a newly recognized inherited dermatosis prevalent in South Africa. S. Afr. Med. J. 52: 871-874, 1977. [PubMed: 607500]

  3. Hobbs, A., Aron, S., Hartshorne, S., Hull, P. R., Ramsay, M. Exclusion of CTSB and FDFT1 as positional and functional candidate genes for keratolytic winter erythema (KWE). J. Derm. Sci. 265: 58-62, 2012.

  4. Hull, P. R., Hobbs, A., Aron, S., Ramsay, M. The elusive gene for keratolytic winter erythema. S. Afr. Med. J. 103: 961-965, 2013. [PubMed: 24300638] [Full Text: https://doi.org/10.7196/samj.7253]

  5. Huntington, M. K., Jassim, A. D. Genetic heterogeneity in keratolytic winter erythema (Oudtshoorn skin disease). Arch Derm. 142: 1073-1074, 2006. [PubMed: 16924068] [Full Text: https://doi.org/10.1001/archderm.142.8.1073]

  6. Krahl, D., Sigwart, A., Hartschuh, W., Anton-Lamprecht, I., Petzoldt, D. Erythrokeratolysis hiemalis: Erythematosquamose Genodermatose mit saisonaler Manifestation Hautarzt 45: 776-779, 1994. [PubMed: 7822203]

  7. Ngcungcu, T., Oti, M., Sitek, J. C., Haukanes, B. I., Linghu, B., Bruccoleri, R., Stokowy, T., Oakeley, E. J., Yang, F., Zhu, J., Sultan, M., Schalwijk, J., and 17 others. Duplicated enhancer region increases expression of CTSB and segregates with keratolytic winter erythema in South African and Norwegian families. Am. J. Hum. Genet. 100: 737-750, 2017. [PubMed: 28457472] [Full Text: https://doi.org/10.1016/j.ajhg.2017.03.012]

  8. Reis, A. Personal Communication. Berlin, Germany 3/28/1994.

  9. Starfield, M., Hennies, H. C., Jung, M., Jenkins, T., Wienker, T., Hull, P., Spurdle, A., Kuster, W., Ramsay, M., Reis, A. Localization of the gene causing keratolytic winter erythema to chromosome 8p22-p23, and evidence for a founder effect in South African Afrikaans-speakers. Am. J. Hum. Genet. 61: 370-378, 1997. [PubMed: 9311742] [Full Text: https://doi.org/10.1086/514848]


Contributors:
Marla J. F. O'Neill - updated : 08/28/2018
Carol A. Bocchini - updated : 10/7/2014
Michael B. Petersen - updated : 8/29/2002
Victor A. McKusick - updated : 9/24/1997

Creation Date:
Victor A. McKusick : 1/3/1991

Edit History:
carol : 08/29/2018
carol : 08/28/2018
carol : 04/17/2017
carol : 10/07/2014
carol : 10/7/2014
carol : 3/18/2004
alopez : 3/11/2003
cwells : 8/29/2002
dholmes : 10/6/1997
terry : 9/30/1997
terry : 9/24/1997
alopez : 3/19/1997
mimadm : 11/5/1994
carol : 5/16/1994
supermim : 3/16/1992
carol : 1/3/1991



NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.

NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.
Printed: May 6, 2024