Entry - #245000 - PAPILLON-LEFEVRE SYNDROME; PALS - OMIM

 
ICD+
# 245000

PAPILLON-LEFEVRE SYNDROME; PALS


Alternative titles; symbols

PLS
KERATOSIS PALMOPLANTARIS WITH PERIODONTOPATHIA


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
11q14.2 Papillon-Lefevre syndrome 245000 AR 3 CTSC 602365
Clinical Synopsis
 

INHERITANCE
- Autosomal recessive
HEAD & NECK
Mouth
- Severe, early-onset periodontitis
Teeth
- Premature tooth loss (both primary and secondary dentition)
- Atrophy of alveolar ridges
SKIN, NAILS, & HAIR
Skin
- Hyperkeratosis of palms and soles
NEUROLOGIC
Central Nervous System
- Dural and choroid plexus calcifications
MOLECULAR BASIS
- Caused by mutation in the cathepsin C gene (CTSC, 602365.0001)
▲ Close

TEXT

A number sign (#) is used with this entry because Papillon-Lefevre syndrome (PALS) is caused by homozygous or compound heterozygous mutation in the cathepsin C gene (CTSC, or DPPI; 602365) on chromosome 11q14.

Mutations in the CTSC gene also cause Haim-Munk syndrome (HMS; 245010) and aggressive periodontitis-1 (170650).

Description

Papillion-Lefevre syndrome (PALS) is an autosomal recessive disorder characterized by palmoplantar keratoderma, periodontitis, and premature loss of dentition (summary by Lefevre et al., 2001).


Clinical Features

Both the milk teeth and the permanent teeth are lost prematurely. The skin lesions are very similar or identical to those of mal de Meleda (248300). Gorlin et al. (1964) suggested that calcification of the dura mater is a third component of the syndrome.

Nazzaro et al. (1988) reported 4 sibs with Papillon-Lefevre syndrome, ranging in age from 2 to 11 years. The parents were double first cousins.

Hattab et al. (1995) reported 4 cases of PLS affecting 2 Jordanian families with a total of 8 children. The patients were between 4.5 and 12 years of age and their parents, who were first cousins, were not affected. In all patients, there was a relationship between increased severity of skin lesions and seasonal variations and intensified periodontal destruction. There was an early eruption of the permanent teeth. The teeth were caries-free with no sign of root resorption.

Laass (1997) stated that the primary teeth in patients with PLS are usually lost by age 4 and permanent teeth by age 17; that periodontitis is gone after the teeth are lost; and that retinoid therapy is valuable for both the keratitis and the periodontitis.

In a study that included 47 patients with Papillon-Lefevre syndrome, Ullbro et al. (2003) ranked the severity of dermatologic and oral affections using a semiquantitative scoring system, and evaluated whether the severity of the dermatologic changes were correlated with age, degree of periodontal infection, or both. They found, with no exception, that both skin and oral changes developed early in life. The dermatologic involvement showed no correlation with age, whereas the periodontal infection was significantly worse in young children with deciduous teeth. A strong correlation was found between the condition of feet and hands, although the scores for the feet were significantly higher. No significant correlation could be demonstrated between the level of periodontal infection and severity of skin affections, supporting the concept that these 2 major components of Papillon-Lefevre syndrome are unrelated to each other.

Almuneef et al. (2003) described a Saudi male with pyogenic liver abscesses, born to consanguineous parents, who was found to have Papillon-Lefevre syndrome. They found several other reports of this association and concluded that liver abscess is an important complication of neutrophil dysfunction in PLS.

Toomes et al. (1999) summarized the clinical features of Papillon-Lefevre syndrome. The disorder is ascertained mainly by dentists because of the severe periodontitis that afflicts patients. Both the deciduous and permanent dentitions are affected, resulting in premature tooth loss. Palmoplantar keratosis, varying from mild psoriasiform scaly skin to overt hyperkeratosis, typically develops within the first 3 years of life. Keratosis also affects other sites such as the elbows and knees. Most PLS patients display both periodontitis and hyperkeratosis. Some patients have only one or the other, and in rare individuals the periodontitis is mild or of late onset.

Murthy et al. (2005) reported ocular surface squamous neoplasia (carcinoma in situ) in a 14-year-old boy with Papillon-Lefevre syndrome.


Population Genetics

Laass (1997) stated that the frequency of PLS is approximately 1 to 4 per million.

Clinical Management

Nazzaro et al. (1988) reported that histologic abnormalities improved markedly during treatment with acitretin, the free acid of etretinate. They suggested that if treatment is started at an early age, patients with PLS should be able to have normal adult dentition.


Mapping

In 2 consanguineous families of Turkish origin and 3 multiplex families, 1 Ethiopian and 2 German, with altogether 10 affected and 5 unaffected sibs, Laass et al. (1997) demonstrated linkage of PLS with D11S937 on 11q13-q14 (maximum lod = 5.1 at theta = 0.0). The affected members of the Turkish and Ethiopian families were homozygous by descent for markers from an 18-cM interval to the gene for ultra-high-sulfur keratin (KRN1; 148021) between marker loci D11S937 and D11S4120.

Laass et al. (1997) did homozygosity mapping of PLS on the basis of 3 consanguineous families, 2 of Turkish and 1 of German origin. A traditional linkage analysis was also performed in these and 3 multiplex families. Linkage was obtained with marker D11S937 with a maximum 2-point lod score of 6.1 at recombination fraction theta = 0.00 on 11q14-q21 near the metalloproteinase gene cluster (e.g., MMP7; 178990). Multipoint likelihood calculations gave a maximum lod score of 7.35 between D11S901 and D11S1358. A 9.2-cM region homozygous by descent in the affected members of the 3 consanguineous families was positioned between markers D11S1989 and D11S4176. Haplotype analyses in all the families studied supported this localization.

Fischer et al. (1997) likewise conducted a primary genomewide search by homozygosity mapping in a large consanguineous family with 4 affected sibs. Homozygosity and linkage were demonstrated in the region 11q14. Linkage was confirmed in 4 additional families with diverse ethnic and geographic backgrounds, 2 of which were consanguineous. A maximum 2-point lod score of 8.19 was obtained for marker D11S901 at theta = 0.0. The analysis of recombination events placed the gene within a 7-cM interval between D11S901 and D11S4175. No shared haplotype was found in the 5 families analyzed.


Inheritance

The transmission pattern of PLS in the families reported by Toomes et al. (1999) was consistent with autosomal recessive inheritance.


Molecular Genetics

Based on the previous mapping of the PLS locus to 11q14-q21, Toomes et al. (1999) used homozygosity mapping in 8 small consanguineous families to narrow the candidate region to a 1.2-cM interval between D11S4082 and D11S931. The gene for cathepsin C (CTSC; 602365), a lysosomal protease, was known to lie within this interval. Toomes et al. (1999) defined the genomic structure of the CTSC gene and found mutations in all 8 families. In 2 of these families, a functional assay demonstrated an almost total loss of cathepsin C activity in PLS patients and reduced activity in obligate carriers.

Hart et al. (1999) found 4 mutations in the CTSC gene in 5 consanguineous Turkish families. All affected individuals were homozygous for CTSC mutations from a common ancestor. Clinical features were not seen in any of the obligate carriers. RT-PCR studies showed CTSC expression in the epithelium of the palms, soles, knees and oral keratinized gingiva.

Gorlin et al. (1976) had suggested that PLS and Haim-Munk syndrome (HMS; 245010) were clinical variants. Hart et al. (2000) found a nonsense mutation (602365.0007) in a Turkish family with PLS. They also found a missense mutation at the same codon (602365.0006) in 4 sibships of the Cochin isolate with HMS, confirming that PLS and HMS are allelic.

Hart et al. (2000) reported mutations in the CTSC gene in patients with PLS from Australia, England, Iran, Turkey, and the US. Mutations were identified in 14 of 20 families studied.


Pathogenesis

Pham et al. (2004) found that, unlike mice lacking Dppi, cytotoxic lymphocytes from humans with PLS maintained lymphocyte-activated killer cell function and significant granzyme A (GZMA; 140050) and granzyme B (GZMB; 123910) activity. Loss of DPPI activity was associated with a severe reduction in the activity and stability of neutrophil-derived serine proteases, but neutrophils from PLS patients did not uniformly have a defect in their ability to kill Staphylococcus aureus and Escherichia coli, suggesting that alternative mechanisms to serine proteases exist in humans for killing these bacteria. Pham et al. (2004) proposed that these observations provide a molecular explanation for the lack of a generalized T-cell immunodeficiency phenotype in patients with PLS.

Meade et al. (2006) found that resting natural killer (NK) cells from 2 sibs with PLS from a consanguineous family reported by Toomes et al. (1999) lacked active CTSC and GZMB. However, in the presence of IL2 (147680), GZMB activity and cytolytic function were restored in a CTSC-independent manner.


REFERENCES

  1. Almuneef, M., Al Khenaizan, S., Al Ajaji, S., Al-Anazi, A. Pyogenic liver abscess and Papillon-Lefevre syndrome: not a rare association. Pediatrics 111: e85-e88, 2003. [PubMed: 12509601, related citations] [Full Text]

  2. Cheung, H. S., Landow, R. K., Bauer, M. Increased collagen synthesis by gingival fibroblasts derived from a Papillon-Lefevre patient. J. Dent. Res. 61: 378-381, 1982. [PubMed: 6460047, related citations] [Full Text]

  3. Fischer, J., Blanchet-Bardon, C., Prud'homme, J.-F., Pavek, S., Steijlen, P. M., Dubertret, L., Weissenbach, J. Mapping of Papillon-Lefevre syndrome to the chromosome 11q14 region. Europ. J. Hum. Genet. 5: 156-160, 1997. [PubMed: 9272739, related citations]

  4. Gorlin, R. J., Pindborg, J. J., Cohen, M. M., Jr. Syndromes of the Head and Neck. (2nd ed.) New York: McGraw-Hill (pub.) 1976. Pp. 373-376.

  5. Gorlin, R. J., Sedano, H., Anderson, V. E. The syndrome of palmar-plantar hyperkeratosis and premature periodontal destruction of the teeth: a clinical and genetic analysis of the Papillon-Lefevre syndrome. J. Pediat. 65: 895-908, 1964. [PubMed: 14244097, related citations] [Full Text]

  6. Greither, A. Keratosis palmo-plantaris mit Periodontopathie (Papillon-Lefevre). Dermatologica 119: 248-263, 1959. [PubMed: 13851749, related citations]

  7. Haneke, E. The Papillon-Lefevre syndrome: keratosis palmoplantaris with periodontopathy: report of a case and review of the cases in the literature. Hum. Genet. 51: 1-35, 1979. [PubMed: 159254, related citations] [Full Text]

  8. Hart, P. S., Zhang, Y., Firatli, E., Uygur, C., Lotfazar, M., Michalec, M. D., Marks, J. J., Lu, X., Coates, B. J., Seow, W. K., Marshall, R., Williams, D., Reed, J. B., Wright, J. T., Hart, T. C. Identification of cathepsin C mutations in ethnically diverse Papillon-Lefevre syndrome patients. J. Med. Genet. 37: 927-932, 2000. [PubMed: 11106356, related citations] [Full Text]

  9. Hart, T. C., Hart, P. S., Bowden, D. W., Michalec, M. D., Callison, S. A., Walker, S. J., Zhang, Y., Firatli, E. Mutations of the cathepsin C gene are responsible for Papillon-Lefevre syndrome. J. Med. Genet. 36: 881-887, 1999. [PubMed: 10593994, related citations]

  10. Hart, T. C., Hart, P. S., Michalec, M. D., Zhang, Y., Firatli, E., Van Dyke, T. E., Stabholz, A., Zlotogorski, A., Shapira, L., Soskolne, W. A. Haim-Munk syndrome and Papillon-Lefevre syndrome are allelic mutations in cathepsin C. J. Med. Genet. 37: 88-94, 2000. Note: Erratum: J. Med. Genet. 38: 79 only, 2001. [PubMed: 10662807, related citations] [Full Text]

  11. Hattab, F. N., Rawashdeh, M. A., Yassin, O. M., Al-Momani, A. S., Al-Ubosi, M. M. Papillon-Lefevre syndrome: a review of the literature and report of 4 cases. J. Periodont. 66: 413-420, 1995. [PubMed: 7623262, related citations] [Full Text]

  12. Jansen, L. H., Dekker, G. Hyperkeratosis palmo-plantaris with periodontosis (Papillon-Lefevre). Dermatologica 113: 207-219, 1956. [PubMed: 13384066, related citations] [Full Text]

  13. Laass, M. W., Hennies, H. C., Jung, M., Preis, S., Stevens, H. P., Wienker, T. F., Reis, A. Papillon-Lefevre syndrome: localisation of a gene to chromosome 11q14-21 by homozygosity mapping. (Abstract) Medizinische Genetik 9: 16 only, 1997.

  14. Laass, M. W., Hennies, H. C., Preis, S., Stevens, H. P., Jung, M., Leigh, I. M., Wienker, T. F., Reis, A. Localisation of a gene for Papillon-Lefevre syndrome to chromosome 11q14-q21 by homozygosity mapping. Hum. Genet. 101: 376-382, 1997. [PubMed: 9439671, related citations] [Full Text]

  15. Laass, M. W. Personal Communication. Berlin, Germany 5/20/1997.

  16. Lefevre, C., Blanchet-Bardon, C., Jobard, F., Bouadjar, B., Stalder, J.-F., Cure, S., Hoffmann, A., Prud'Homme, J.-F., Fischer, J. Point mutations, deletions, and polymorphisms in the cathepsin C gene in nine families from Europe and North Africa with Papillon-Lefevre syndrome. J. Invest. Derm. 117: 1657-1661, 2001. [PubMed: 11886537, related citations] [Full Text]

  17. Meade, J. L., de Wynter, E. A., Brett, P., Sharif, S. M., Woods, C. G., Markham, A. F., Cook, G. P. A family with Papillon-Lefevre syndrome reveals a requirement for cathepsin C in granzyme B activation and NK cell cytolytic activity. Blood 107: 3665-3668, 2006. [PubMed: 16410452, related citations] [Full Text]

  18. Murthy, R., Honavar, S. G., Vemuganti, G. K., Burman, S., Naik, M., Parathasaradhi, A. Ocular surface squamous neoplasia in Papillon-Lefevre syndrome. Am. J. Ophthal. 139: 207-209, 2005. [PubMed: 15652859, related citations] [Full Text]

  19. Nazzaro, V., Blanchet-Bardon, C., Mimoz, C., Revuz, J., Puissant, A. Papillon-Lefevre syndrome: ultrastructural study and successful treatment with acitretin. Arch. Derm. 124: 533-539, 1988. [PubMed: 2965550, related citations]

  20. Papillon, M. M., Lefevre, P. Deux cas de keratodermie palmaire et plantaire symetrique familiale (maladie de Meleda) chez le frere et la soeur: coexistence dans les deux cas d'alterations dentaires graves. Bull. Soc. Fr. Dermatol. Syphiligr. 31: 82-87, 1924.

  21. Pham, C. T. N., Ivanovich, J. L., Raptis, S. Z., Zehnbauer, B., Ley, T. J. Papillon-Lefevre syndrome: correlating the molecular, cellular, and clinical consequences of the cathepsin C/dipeptidyl peptidase I deficiency in humans. J. Immun. 173: 7277-7281, 2004. [PubMed: 15585850, related citations] [Full Text]

  22. Toomes, C., James, J., Wood, A. J., Wu, C. L., McCormick, D., Lench, N., Hewitt, C., Moynihan, L., Roberts, E., Woods, C. G., Markham, A., Wong, M., and 10 others. Loss-of-function mutations in the cathepsin C gene result in periodontal disease and palmoplantar keratosis. Nature Genet. 23: 421-424, 1999. [PubMed: 10581027, related citations] [Full Text]

  23. Ullbro, C., Crossner, C.-G., Nederfors, T., Alfadley, A., Thestrup-Pedersen, K. Dermatologic and oral findings in a cohort of 47 patients with Papillon-Lefevre syndrome. J. Am. Acad. Derm. 48: 345-351, 2003. [PubMed: 12637913, related citations] [Full Text]

  24. Ziprkowski, L., Ramon, Y., Brish, M. Hyperkeratosis palmoplantaris with periodontosis (Papillon-Lefevre). Arch. Derm. 88: 207-209, 1963. [PubMed: 14043611, related citations] [Full Text]


Contributors:
Paul J. Converse - updated : 7/7/2009
Paul J. Converse - updated : 11/1/2006
Jane Kelly - updated : 7/19/2005
Natalie E. Krasikov - updated : 2/19/2004
Gary A. Bellus - updated : 5/20/2003
Michael J. Wright - updated : 2/6/2001
Michael J. Wright - updated : 7/27/2000
Michael J. Wright - updated : 3/9/2000
Victor A. McKusick - updated : 11/30/1999
Victor A. McKusick - updated : 2/11/1998
Victor A. McKusick - updated : 10/10/1997
Victor A. McKusick - updated : 5/30/1997
Victor A. McKusick - edited : 5/7/1997
Creation Date:
Victor A. McKusick : 6/3/1986
Edit History:
carol : 11/17/2023
carol : 11/16/2023
carol : 07/08/2022
carol : 07/09/2016
carol : 7/16/2014
carol : 7/15/2014
carol : 7/15/2014
mgross : 7/8/2009
terry : 7/7/2009
mgross : 11/7/2006
terry : 11/1/2006
alopez : 7/19/2005
carol : 2/19/2004
terry : 2/19/2004
alopez : 11/5/2003
alopez : 5/20/2003
carol : 11/24/2001
alopez : 2/6/2001
alopez : 7/27/2000
alopez : 3/9/2000
alopez : 11/30/1999
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terry : 11/30/1999
carol : 8/20/1998
alopez : 2/11/1998
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mark : 9/18/1995
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mimadm : 2/19/1994
carol : 11/16/1993
supermim : 3/16/1992
supermim : 3/20/1990

# 245000

PAPILLON-LEFEVRE SYNDROME; PALS


Alternative titles; symbols

PLS
KERATOSIS PALMOPLANTARIS WITH PERIODONTOPATHIA


SNOMEDCT: 40158001;   ORPHA: 678;   DO: 3389;  


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
11q14.2 Papillon-Lefevre syndrome 245000 Autosomal recessive 3 CTSC 602365

TEXT

A number sign (#) is used with this entry because Papillon-Lefevre syndrome (PALS) is caused by homozygous or compound heterozygous mutation in the cathepsin C gene (CTSC, or DPPI; 602365) on chromosome 11q14.

Mutations in the CTSC gene also cause Haim-Munk syndrome (HMS; 245010) and aggressive periodontitis-1 (170650).

Description

Papillion-Lefevre syndrome (PALS) is an autosomal recessive disorder characterized by palmoplantar keratoderma, periodontitis, and premature loss of dentition (summary by Lefevre et al., 2001).


Clinical Features

Both the milk teeth and the permanent teeth are lost prematurely. The skin lesions are very similar or identical to those of mal de Meleda (248300). Gorlin et al. (1964) suggested that calcification of the dura mater is a third component of the syndrome.

Nazzaro et al. (1988) reported 4 sibs with Papillon-Lefevre syndrome, ranging in age from 2 to 11 years. The parents were double first cousins.

Hattab et al. (1995) reported 4 cases of PLS affecting 2 Jordanian families with a total of 8 children. The patients were between 4.5 and 12 years of age and their parents, who were first cousins, were not affected. In all patients, there was a relationship between increased severity of skin lesions and seasonal variations and intensified periodontal destruction. There was an early eruption of the permanent teeth. The teeth were caries-free with no sign of root resorption.

Laass (1997) stated that the primary teeth in patients with PLS are usually lost by age 4 and permanent teeth by age 17; that periodontitis is gone after the teeth are lost; and that retinoid therapy is valuable for both the keratitis and the periodontitis.

In a study that included 47 patients with Papillon-Lefevre syndrome, Ullbro et al. (2003) ranked the severity of dermatologic and oral affections using a semiquantitative scoring system, and evaluated whether the severity of the dermatologic changes were correlated with age, degree of periodontal infection, or both. They found, with no exception, that both skin and oral changes developed early in life. The dermatologic involvement showed no correlation with age, whereas the periodontal infection was significantly worse in young children with deciduous teeth. A strong correlation was found between the condition of feet and hands, although the scores for the feet were significantly higher. No significant correlation could be demonstrated between the level of periodontal infection and severity of skin affections, supporting the concept that these 2 major components of Papillon-Lefevre syndrome are unrelated to each other.

Almuneef et al. (2003) described a Saudi male with pyogenic liver abscesses, born to consanguineous parents, who was found to have Papillon-Lefevre syndrome. They found several other reports of this association and concluded that liver abscess is an important complication of neutrophil dysfunction in PLS.

Toomes et al. (1999) summarized the clinical features of Papillon-Lefevre syndrome. The disorder is ascertained mainly by dentists because of the severe periodontitis that afflicts patients. Both the deciduous and permanent dentitions are affected, resulting in premature tooth loss. Palmoplantar keratosis, varying from mild psoriasiform scaly skin to overt hyperkeratosis, typically develops within the first 3 years of life. Keratosis also affects other sites such as the elbows and knees. Most PLS patients display both periodontitis and hyperkeratosis. Some patients have only one or the other, and in rare individuals the periodontitis is mild or of late onset.

Murthy et al. (2005) reported ocular surface squamous neoplasia (carcinoma in situ) in a 14-year-old boy with Papillon-Lefevre syndrome.


Population Genetics

Laass (1997) stated that the frequency of PLS is approximately 1 to 4 per million.

Clinical Management

Nazzaro et al. (1988) reported that histologic abnormalities improved markedly during treatment with acitretin, the free acid of etretinate. They suggested that if treatment is started at an early age, patients with PLS should be able to have normal adult dentition.


Mapping

In 2 consanguineous families of Turkish origin and 3 multiplex families, 1 Ethiopian and 2 German, with altogether 10 affected and 5 unaffected sibs, Laass et al. (1997) demonstrated linkage of PLS with D11S937 on 11q13-q14 (maximum lod = 5.1 at theta = 0.0). The affected members of the Turkish and Ethiopian families were homozygous by descent for markers from an 18-cM interval to the gene for ultra-high-sulfur keratin (KRN1; 148021) between marker loci D11S937 and D11S4120.

Laass et al. (1997) did homozygosity mapping of PLS on the basis of 3 consanguineous families, 2 of Turkish and 1 of German origin. A traditional linkage analysis was also performed in these and 3 multiplex families. Linkage was obtained with marker D11S937 with a maximum 2-point lod score of 6.1 at recombination fraction theta = 0.00 on 11q14-q21 near the metalloproteinase gene cluster (e.g., MMP7; 178990). Multipoint likelihood calculations gave a maximum lod score of 7.35 between D11S901 and D11S1358. A 9.2-cM region homozygous by descent in the affected members of the 3 consanguineous families was positioned between markers D11S1989 and D11S4176. Haplotype analyses in all the families studied supported this localization.

Fischer et al. (1997) likewise conducted a primary genomewide search by homozygosity mapping in a large consanguineous family with 4 affected sibs. Homozygosity and linkage were demonstrated in the region 11q14. Linkage was confirmed in 4 additional families with diverse ethnic and geographic backgrounds, 2 of which were consanguineous. A maximum 2-point lod score of 8.19 was obtained for marker D11S901 at theta = 0.0. The analysis of recombination events placed the gene within a 7-cM interval between D11S901 and D11S4175. No shared haplotype was found in the 5 families analyzed.


Inheritance

The transmission pattern of PLS in the families reported by Toomes et al. (1999) was consistent with autosomal recessive inheritance.


Molecular Genetics

Based on the previous mapping of the PLS locus to 11q14-q21, Toomes et al. (1999) used homozygosity mapping in 8 small consanguineous families to narrow the candidate region to a 1.2-cM interval between D11S4082 and D11S931. The gene for cathepsin C (CTSC; 602365), a lysosomal protease, was known to lie within this interval. Toomes et al. (1999) defined the genomic structure of the CTSC gene and found mutations in all 8 families. In 2 of these families, a functional assay demonstrated an almost total loss of cathepsin C activity in PLS patients and reduced activity in obligate carriers.

Hart et al. (1999) found 4 mutations in the CTSC gene in 5 consanguineous Turkish families. All affected individuals were homozygous for CTSC mutations from a common ancestor. Clinical features were not seen in any of the obligate carriers. RT-PCR studies showed CTSC expression in the epithelium of the palms, soles, knees and oral keratinized gingiva.

Gorlin et al. (1976) had suggested that PLS and Haim-Munk syndrome (HMS; 245010) were clinical variants. Hart et al. (2000) found a nonsense mutation (602365.0007) in a Turkish family with PLS. They also found a missense mutation at the same codon (602365.0006) in 4 sibships of the Cochin isolate with HMS, confirming that PLS and HMS are allelic.

Hart et al. (2000) reported mutations in the CTSC gene in patients with PLS from Australia, England, Iran, Turkey, and the US. Mutations were identified in 14 of 20 families studied.


Pathogenesis

Pham et al. (2004) found that, unlike mice lacking Dppi, cytotoxic lymphocytes from humans with PLS maintained lymphocyte-activated killer cell function and significant granzyme A (GZMA; 140050) and granzyme B (GZMB; 123910) activity. Loss of DPPI activity was associated with a severe reduction in the activity and stability of neutrophil-derived serine proteases, but neutrophils from PLS patients did not uniformly have a defect in their ability to kill Staphylococcus aureus and Escherichia coli, suggesting that alternative mechanisms to serine proteases exist in humans for killing these bacteria. Pham et al. (2004) proposed that these observations provide a molecular explanation for the lack of a generalized T-cell immunodeficiency phenotype in patients with PLS.

Meade et al. (2006) found that resting natural killer (NK) cells from 2 sibs with PLS from a consanguineous family reported by Toomes et al. (1999) lacked active CTSC and GZMB. However, in the presence of IL2 (147680), GZMB activity and cytolytic function were restored in a CTSC-independent manner.


See Also:

Cheung et al. (1982); Greither (1959); Haneke (1979); Jansen and Dekker (1956); Papillon and Lefevre (1924); Ziprkowski et al. (1963)

REFERENCES

  1. Almuneef, M., Al Khenaizan, S., Al Ajaji, S., Al-Anazi, A. Pyogenic liver abscess and Papillon-Lefevre syndrome: not a rare association. Pediatrics 111: e85-e88, 2003. [PubMed: 12509601] [Full Text: https://doi.org/10.1542/peds.111.1.e85]

  2. Cheung, H. S., Landow, R. K., Bauer, M. Increased collagen synthesis by gingival fibroblasts derived from a Papillon-Lefevre patient. J. Dent. Res. 61: 378-381, 1982. [PubMed: 6460047] [Full Text: https://doi.org/10.1177/00220345820610020101]

  3. Fischer, J., Blanchet-Bardon, C., Prud'homme, J.-F., Pavek, S., Steijlen, P. M., Dubertret, L., Weissenbach, J. Mapping of Papillon-Lefevre syndrome to the chromosome 11q14 region. Europ. J. Hum. Genet. 5: 156-160, 1997. [PubMed: 9272739]

  4. Gorlin, R. J., Pindborg, J. J., Cohen, M. M., Jr. Syndromes of the Head and Neck. (2nd ed.) New York: McGraw-Hill (pub.) 1976. Pp. 373-376.

  5. Gorlin, R. J., Sedano, H., Anderson, V. E. The syndrome of palmar-plantar hyperkeratosis and premature periodontal destruction of the teeth: a clinical and genetic analysis of the Papillon-Lefevre syndrome. J. Pediat. 65: 895-908, 1964. [PubMed: 14244097] [Full Text: https://doi.org/10.1016/s0022-3476(64)80014-7]

  6. Greither, A. Keratosis palmo-plantaris mit Periodontopathie (Papillon-Lefevre). Dermatologica 119: 248-263, 1959. [PubMed: 13851749]

  7. Haneke, E. The Papillon-Lefevre syndrome: keratosis palmoplantaris with periodontopathy: report of a case and review of the cases in the literature. Hum. Genet. 51: 1-35, 1979. [PubMed: 159254] [Full Text: https://doi.org/10.1007/BF00278288]

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Contributors:
Paul J. Converse - updated : 7/7/2009
Paul J. Converse - updated : 11/1/2006
Jane Kelly - updated : 7/19/2005
Natalie E. Krasikov - updated : 2/19/2004
Gary A. Bellus - updated : 5/20/2003
Michael J. Wright - updated : 2/6/2001
Michael J. Wright - updated : 7/27/2000
Michael J. Wright - updated : 3/9/2000
Victor A. McKusick - updated : 11/30/1999
Victor A. McKusick - updated : 2/11/1998
Victor A. McKusick - updated : 10/10/1997
Victor A. McKusick - updated : 5/30/1997
Victor A. McKusick - edited : 5/7/1997

Creation Date:
Victor A. McKusick : 6/3/1986

Edit History:
carol : 11/17/2023
carol : 11/16/2023
carol : 07/08/2022
carol : 07/09/2016
carol : 7/16/2014
carol : 7/15/2014
carol : 7/15/2014
mgross : 7/8/2009
terry : 7/7/2009
mgross : 11/7/2006
terry : 11/1/2006
alopez : 7/19/2005
carol : 2/19/2004
terry : 2/19/2004
alopez : 11/5/2003
alopez : 5/20/2003
carol : 11/24/2001
alopez : 2/6/2001
alopez : 7/27/2000
alopez : 3/9/2000
alopez : 11/30/1999
terry : 11/30/1999
terry : 11/30/1999
carol : 8/20/1998
alopez : 2/11/1998
dholmes : 2/4/1998
jenny : 10/17/1997
terry : 10/10/1997
jenny : 6/3/1997
jenny : 6/3/1997
terry : 5/30/1997
mark : 5/7/1997
terry : 5/6/1997
mark : 9/18/1995
terry : 8/25/1994
mimadm : 2/19/1994
carol : 11/16/1993
supermim : 3/16/1992
supermim : 3/20/1990



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 5, 2024