| Liebenberg syndrome | |
|---|---|
| Classification and external resources | |
| OMIM | 186550 |
Liebenberg Syndrome is a rare autosomal genetic disease that involves a deletion mutation upstream of the PITX1 gene, which is one that's responsible for the body's organization, specifically in forming lower limbs.[1] In animal studies, when this deletion was introduced to developing birds, their wing buds were noted to take on limb-like structures.[2]
People who are affected by Liebenberg Syndrome suffer from three main symptoms:
- Dysplasia (improper formation) of the bony components of the elbow
- Abnormal shape of carpal bones
- Brachydactyly, a symptom where the fingers and toes are shorter than normal.
This condition was first described by Dr. F. Liebenberg in 1973 while he followed multiple generations of a South African family,[3] but it has since been noticed in other family lineages across the world.[1]
Liebenberg Syndrome follows an autosomal dominant mode of inheritance,[3][5] whereby heterozygotes with this mutation express the disease phenotype.
It is caused by a heterozygous mutation to chromosome 5, and involves the inappropriate enhancement of the PITX1 gene due to genetic deletions and chromosome translocations.[6]
PITX1 is a homeobox gene, which are genes that regulate proper body structure development. This PITX1 gene encodes a transcription factor expressed in hind limbs. When expressed, it causes the formation of hindlimb structures. Liebenberg Syndrome is a result of one of two different genetic mutations.
The first is a deletion upstream of the PITX1 gene on chromosome 5. This deletion includes the H2AFY gene, which is responsible for suppressing an upstream enhancer element known as hs1473. When H2AFY is removed, the enhancer is brought closer to PITX1 and inappropriately enhances it in forelimbs, causing them to adopt hindlimb morphology.[7]
The second mutation that can cause the phenotype for Liebenberg syndrome is a translocation of chromosome 18 and chromosome 5. Translocation mutations are ones that switch parts of non-homologous chromosomes with each other. This move introduces two enhancers from chromosome 18 to move to a position directly upstream of PITX1 on chromosome 5. The enhancers increase transcription of the PITX1 gene and cause patients to develop the same phenotype described above.[7]
People with Liebenberg Syndrome have normal overall body structure. Their morphological differences are in both of their distal humeri, elbows, hands and wrists.[6] The elbows are enlarged with abnormally large olecranons and radial heads. Patients have relatively fixed elbow positions and are therefore unable to pronate or supinate their forearms. Their wrists are also limited in their active movements and have very prominent ulnar sides of the joints. The fingers adopt toe-like structures. Brachydactyly and camptodactyly occur; fingers are short and abnormally bent. These changes in finger shape result in small club shaped appendages. Motion is reduced in all joints of the hand.[6]
Surgery is an option to correct some of the morphological changes made by Liebenberg Syndrome. Cases exist where surgery is performed to correct radial deviations and flexion deformities in the wrist. A surgery called a carpectomy has been performed on a patient whereby a surgeon removes the proximal row of the carpal bones.[7] This procedure removes some of the carpal bones to create a more regular wrist function than is observed in people with this condition.
- Al-Quattan, Mohammad (2013). "Liebenberg syndrome is caused by a deletion upstream to the PITX1 gene resulting in transformation of the upper limbs to reflect lower limb characteristics". Gene 524: 65–71.
- Logan, M., Tabin, C.J., 1999. Role of Pitx1 upstream of Tbx4 in specification of hind limb identity. Science 283, 1736–1739. Accessed October 4, 2015
- Liebenberg, F., 1973. A pedigree with unusual anomalies of the elbows, wrist, and hands in fine generations. S. Afr. Med. J. 47, 745–747. Accessed October 4, 2015.
- Tiberio, G et. al. (2000). "Liebenberg syndrome: brachydactyly with joint dysplasia (MIM 186550)". Journal of Medical Genetics 37: 548.
- Mennen, U; et al. (2013). "The Liebenberg syndrome: in depth analysis of the original family". The Journal of Hand Surgery 39: 919.
- Speilmann, Malte; et al. (2012). "Homeotic Arm-to-Leg Transformation Associated with Genomic Rearrangements at the PITX1 Locus". American Journal of Human Genetics 91: 629.
- Abdel-Ghani, Hisham (2013). "Liebenberg Syndrome: Case Report and Insight Into Molecular Basis". Journal of Hand Surgery 38A: 459-465
 | This is a user sandbox of Mturk95. A user sandbox is a subpage of the user's user page. It serves as a testing spot and page development space for the user and is not an encyclopedia article. |
| Liebenberg syndrome | |
|---|---|
| Classification and external resources | |
| OMIM | 186550 |
Liebenberg Syndrome is a rare autosomal genetic disease that involves a deletion mutation upstream of the PITX1 gene, which is one that's responsible for the body's organization, specifically in forming lower limbs.[1] In animal studies, when this deletion was introduced to developing birds, their wing buds were noted to take on limb-like structures.[2]
People who are affected by Liebenberg Syndrome suffer from three main symptoms:
- Dysplasia (improper formation) of the bony components of the elbow
- Abnormal shape of carpal bones
- Brachydactyly, a symptom where the fingers and toes are shorter than normal.
This condition was first described by Dr. F. Liebenberg in 1973 while he followed multiple generations of a South African family,[3] but it has since been noticed in other family lineages across the world.[1]
Liebenberg Syndrome follows an autosomal dominant mode of inheritance,[3][5] whereby heterozygotes with this mutation express the disease phenotype.
It is caused by a heterozygous mutation to chromosome 5, and involves the inappropriate enhancement of the PITX1 gene due to genetic deletions and chromosome translocations.[6]
PITX1 is a homeobox gene, which are genes that regulate proper body structure development. This PITX1 gene encodes a transcription factor expressed in hind limbs. When expressed, it causes the formation of hindlimb structures. Liebenberg Syndrome is a result of one of two different genetic mutations.
The first is a deletion upstream of the PITX1 gene on chromosome 5. This deletion includes the H2AFY gene, which is responsible for suppressing an upstream enhancer element known as hs1473. When H2AFY is removed, the enhancer is brought closer to PITX1 and inappropriately enhances it in forelimbs, causing them to adopt hindlimb morphology.[7]
The second mutation that can cause the phenotype for Liebenberg syndrome is a translocation of chromosome 18 and chromosome 5. Translocation mutations are ones that switch parts of non-homologous chromosomes with each other. This move introduces two enhancers from chromosome 18 to move to a position directly upstream of PITX1 on chromosome 5. The enhancers increase transcription of the PITX1 gene and cause patients to develop the same phenotype described above.[7]
People with Liebenberg Syndrome have normal overall body structure. Their morphological differences are in both of their distal humeri, elbows, hands and wrists.[6] The elbows are enlarged with abnormally large olecranons and radial heads. Patients have relatively fixed elbow positions and are therefore unable to pronate or supinate their forearms. Their wrists are also limited in their active movements and have very prominent ulnar sides of the joints. The fingers adopt toe-like structures. Brachydactyly and camptodactyly occur; fingers are short and abnormally bent. These changes in finger shape result in small club shaped appendages. Motion is reduced in all joints of the hand.[6]
Surgery is an option to correct some of the morphological changes made by Liebenberg Syndrome. Cases exist where surgery is performed to correct radial deviations and flexion deformities in the wrist. A surgery called a carpectomy has been performed on a patient whereby a surgeon removes the proximal row of the carpal bones.[7] This procedure removes some of the carpal bones to create a more regular wrist function than is observed in people with this condition.
- Al-Quattan, Mohammad (2013). "Liebenberg syndrome is caused by a deletion upstream to the PITX1 gene resulting in transformation of the upper limbs to reflect lower limb characteristics". Gene 524: 65–71.
- Logan, M., Tabin, C.J., 1999. Role of Pitx1 upstream of Tbx4 in specification of hind limb identity. Science 283, 1736–1739. Accessed October 4, 2015
- Liebenberg, F., 1973. A pedigree with unusual anomalies of the elbows, wrist, and hands in fine generations. S. Afr. Med. J. 47, 745–747. Accessed October 4, 2015.
- Tiberio, G et. al. (2000). "Liebenberg syndrome: brachydactyly with joint dysplasia (MIM 186550)". Journal of Medical Genetics 37: 548.
- Mennen, U; et al. (2013). "The Liebenberg syndrome: in depth analysis of the original family". The Journal of Hand Surgery 39: 919.
- Speilmann, Malte; et al. (2012). "Homeotic Arm-to-Leg Transformation Associated with Genomic Rearrangements at the PITX1 Locus". American Journal of Human Genetics 91: 629.
- Abdel-Ghani, Hisham (2013). "Liebenberg Syndrome: Case Report and Insight Into Molecular Basis". Journal of Hand Surgery 38A: 459-465
|
| This is a user sandbox of Mturk95. A user sandbox is a subpage of the user's user page. It serves as a testing spot and page development space for the user and is not an encyclopedia article. |