dc.description.abstract |
Hereditary alopecias and ectodermal dysplasias are genetically heterogeneous groups
of congenital disorders involving abnormalities in ectodermal appendages (hair, nail,
teeth, sweat glands). These hereditary disorders may occur either as an isolated
condition or associated with defects in other organ/organ systems. Over the past few
years, investigations into molecular basis of these genetic disorders have yielded
insights into the functional pathways and mechanisms involved in biology of skin
appendages.
The present study deals with clinical and molecular characterization of fifteen
consanguineous families segregating disorders of hairs and ectodermal dysplasias. In
addition, five candidate genes were screened in three other families exhibiting
alopecia and mental retardation (APMR) syndrome.
Autosomal recessive form of isolated hypotrichosis was identified in six families (A-
F). Sequence analysis of Lipase H (LIPH) gene, mapped on chromosome 3q27,
identified a novel splice-site mutation (c.629-1G>C) in family A, and two recurrent
variants (c.659-660delTA [p.Ile220Argfs*25]; c.322T > C [p.Trp108Arg]) in three
families (B-D). Four other families (G-J) demonstrated syndromic forms of hair loss
disorders including juvenile macular dystrophy (HJMD), (APMR) and Woodhouse-
Sakati syndrome (WSS). Two of these families, showing different phenotypes,
mapped on chromosome 2q22.3-q31.1. In one of the family (J), sequence analysis
identified a novel splice site mutation (c.321+1G>A) in the gene C2orf37.
Five other families, presented in the dissertation, exhibited different forms of
ectodermal dysplasias including a novel type with hypotrichosis, nail dystrophy and
reticulate pattern of hyperpigmentation in family N. SNP based genome wide analysis
mapped the phenotype on chromosome 18p11.32-p11.31. However, screening 17
candidate genes, located within the linkage interval, failed to detect any potential
sequence variant. In family O with pure hair and nail ectodermal dysplasia (PHNED),
a novel duplication mutation (c.200-203dupGCCA [p.His68Glnfs*84]) was detected
in the recently reported gene HOXC13, mapped on chromosome 12p11.1-q21.1. In a
large family (R), segregating nail and bone deformity (brachydactyly type B1) in
Genetic Mapping of Genes Causing Human Hereditary Alopecias and Ectodermal Dysplasias
XVIIAbstract
autosomal dominant fashion, screening the gene ROR2 revealed a previously known
nonsense mutation (c.2278C>T [p.Q760*]).
Overall, the knowledge derived from identification of different disease causing gene
variants and locus enhances our understanding of genetic basis of these rare and
diverse inherited skin disorders in Pakistani population and adds data to the growing
mutation database for selected genetic disorders. These are the initial steps taken to
unveil the molecular pathways involved in the pathophysiologies of the disorders and
gives incentives for further studies into genotype-phenotype correlation, gene
functional studies and for prognostic implications in pre-natal diagnosis and clinical
management of the disease.
The work presented in the dissertation contributed in publishing the following articles.
1. Habib R, Ansar M, Shahid M, Ali G, Ahmad W, Betz RC (2013). A Novel Locus
for Ectodermal Dysplasia of Hair, Nail and Skin pigmentation anomalies Maps to
Chromosome 18p11.32–11.31. (Submitted to Clinical Genetic).
2. Ali RH, Habib R, Ud-Din N, Khan MN, Ansar M, Ahmad W (2013). Novel
mutations in the gene HOXC13 underlying pure hair and nail ectodermal dysplasia in
consanguineous families. British Journal of Dermatology (In Press) (Co first
author).
3. Habib R, Amin-Ud-Din M, Ahmad W (2013). A nonsense mutation in the gene
ROR2
underlying
autosomal
dominant
brachydactyly
type
B.
Clinical
Dysmorphology 22: 47-50.
4. Habib R, Basit S, Khan S, Khan MN, Ahmad W (2011). A novel splice site
mutation in gene C2orf37 underlying Woodhouse-Sakati syndrome (WSS) in a
consanguineous family of Pakistani origin. Gene 490: 26-31.
5. Khan S, Habib R, Mir H, Umm-e-Kalsoom, Naz G, Ayub M, Shafique S, Yamin
T, Ali N, Basit S, Wasif N, Kamran-ul-Hassan Naqvi S, Ali G, Wali A, Ansar M,
Ahmad W (2011). Mutations in the LPAR6 and LIPH genes underlie autosomal
recessive hypotrichosis/woolly hair in 17 consanguineous families from Pakistan.
Clinical and Experimental Dermatology 36: 652-654.
Genetic Mapping of Genes Causing Human Hereditary Alopecias and Ectodermal Dysplasias
XVIIIAbstract
6. Kalsoom UE, Habib R, Khan B, Ali G, Ali N, Ansar M, Ahmad W (2010).
Mutations in lipase H gene underlie autosomal recessive hypotrichosis in five
Pakistani families. Acta Dermatological Venereology 90: 93-94. |
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