Research Studies

Previously Funded Studies

  01547-A: Genetic Analysis of Alopecia X in Pomeranians

Grant Status: Open

Grant Amount: $12,960

Dr. Tosso Leeb, PhD, University of Bern

May 1, 2011 – April 30, 2012

Sponsor(s): American Pomeranian Club, Inc.

Breed(s): Pomeranian

Disease(s): Alopecia

Donate to Support this Grant


Abstract

LAY ABSTRACT: Alopecia X occurs most frequently in Pomeranians but has also been described in several arctic breeds with plush undercoat such as the Keeshond, , Samoyed, Chow-Chow, and Alaskan Malamute. It is characterized by hair loss and dark coloration of the affected skin areas. The disease typically starts at 6 months to 5 years of age and predominantly affects the rump of the animals. Alopecia X has also been termed “growth hormone-responsive alopecia” and “black skin disease”. Although many experts believe in a genetic cause for alopecia X, the exact mode of inheritance is still under discussion.

In previous research projects we and others have tried to identify known genes involved in hair growth. These so-called candidate genes were then inspected for changes between healthy and alopecia X affected dogs. Unfortunately, so far none of the investigated candidate genes turned out to be the causative gene for alopecia X. We now successfully applied a new technique (genome-wide association study, GWAS) to determine that a major genetic risk factor is located on a small portion of a single chromosome. With this application we would like to completely sequence this region in two affected and two control Pomeranians. We expect to get a large list of variants including the causative mutation from this experiment. As we expect the causative mutation to be either non-coding or in a previously unknown gene, it will probably require significant additional efforts to finally identify the causative mutation itself and develop genetic testing.

 

  01197-A: Genetic Analysis of Alopecia X in Pomeranians and Keeshonden

Grant Status: Closed

Grant Amount: $12,960

Dr. Tosso Leeb, PhD, University of Bern

March 1, 2009 – February 28, 2010

Sponsor(s): Keeshond Club of America, Pomeranian Charitable Trust

Breed(s): Keeshond, Pomeranian

Disease(s): Alopecia

Project Summary

Alopecia X is an inherited disease in Pomeranians and other breeds with plush undercoat. It leads to hair-loss and sometimes also to a darkening of the underlying skin. Male dogs are much more frequently affected than female dogs, which has led to speculations that a hormonal imbalance might be involved in this disease. However, up to now the cause of alopecia X remains unknown. As the underlying problem has not yet been discovered, we employed a purely genetic approach to localize the mutation in the dog genome. Using SNP chip technology and a so-called genome-wide association study, we were able to show that the mutation causing alopecia X resides on a small segment of chromosome 15. This result is an important advance as there are only ~10 genes in this segment. This means that the other ~20’000 genes in the dog genome are not responsible for alopecia X and need not be further investigated. Unfortunately none of the genes in the associated interval on chromosome 15 has a known involvement in hair growth. Therefore, we will next need to perform a very labor-intensive investigation of all variants in this region to be able to identify the causative mutation for alopecia X.

Publication(s)

Fatima Wingeier (2009) Alopecia X in Pomeranians – A Genome Wide Association Analysis. Master Thesis. Faculty of Natural Sciences, University of Bern.
 

  00812-A: Investigation of the Canine Cathepsin L Gene (CTSL) as a Candidate for Alopecia X in Keeshonden and Pomeranians

Grant Status: Closed

Grant Amount: $12,600

Dr. Tosso Leeb, PhD, University of Bern

December 1, 2006 – May 31, 2007

Sponsor(s): Keeshond Club of America, Pomeranian Charitable Trust

Breed(s): Alaskan Malamute, Chow Chow, Keeshond, Pomeranian, Samoyed

Disease(s): Alopecia 

Project Summary

Alopecia X is a noninflammatory, progressive, bilateral symmetric alopecia in dogs. The disease is mainly found in Nordic breeds. The breed predisposition and a strong familial accumulation suggest a hereditary background. We analyzed the cathepsin L2 gene (CTSL2) as a candidate for alopecia X. The comparative sequencing of 14 affected and 18 control animals revealed ten polymorphisms; however, none of these polymorphisms affected the coding sequence. Haplotype analysis did not reveal an association of one particular CTSL2 haplotype with the disease phenotype; therefore, we conclude that the CTSL2 gene is probably not the causative gene for alopecia X.

Publication(s)

– Mausberg, Em, Drogemuller, C, Dolf, G, Leeb, T, Rufenacht, S and Welle, M (2007) Evaluation of the CTSL2 Gene as a Candidate Gene For Alopecia X in Pomeranians and Keeshonden. Animal Biotechnology. 18, 291 – 6.

– Mausberg, Em, Drogemuller, C, Dolf, G, Rufenacht, S, Welle, M and Leeb, T (2008) Exclusion of patched homolog 2 (PTCH2) as a candidate gene for alopecia X in pomeranians and keeshonden. Veterinary Record. 163, 121-3. 10.1136/vr.163.4.121


  00695-A: Estrogen Receptor Antagonist and Hair Regrowth in Dogs with Follicular Arrest (Alopecia X)

Grant Status: Closed

Grant Amount: $9,936

Dr. Linda Frank, DVM, University of Tennessee

December 1, 2005 – November 30, 2006

Sponsor(s): Alaskan Malamute Research Foundation, Inc., American Pomeranian Club, Inc.

Disease(s): Alopecia 

Abstract

Follicular arrest (also known as Alopecia X, adrenal hyperplasia-like syndrome, growth hormone responsive alopecia, and others) is a common condition seen in Pomeranians and other “plush-coated” breeds. While systemic illness is not associated with this disease, the loss of hair is dramatic and of concern to the owner. The pathomechanism of the hair loss is not known, but appears to be related to an abnormality in the hair follicle?s ability to cycle properly. Once the hair is in telogen or resting phase of the hair cycle, new hair growth does not occur. Recently there has been the recognition of an estrogen receptor pathway that appears to regulate the transition of the hair from resting to active growth. We hypothesize that dogs with follicular arrest have increased activity of estrogen receptors in hair follicles preventing the hair follicles from cycling normal. A potent estrogen receptor blocker has been developed for treating women with breast cancer. It has been extensively tested in dogs and has no side effects except for those related to anti-estrogen activity such as reduction in fertility. Therefore, we would like to test the ability of this drug to cause hair regrowth in Pomeranian dogs with follicular arrest. This will be a pilot study in which 5 dogs with alopecia will receive an intramuscular injection of the active drug (fulvestrant) monthly for 2 months and 5 will receive placebo. The dogs will be evaluated for hair regrowth in 1 month intervals. If hair regrowth occurs, the dogs which received placebo will be offered the active drug. CBC, chemistry panel, and urinalysis will be monitored prior to receiving the first injection, and monthly for 2 months.  
 

  0002290: Mapping Canine X Chromosome Linked Alopecia

Grant Status: Closed

Grant Amount: $14,415.7

Dr. Gary S. Johnson, DVM PhD, University of Missouri, Columbia

April 16, 2002 – March 31, 2003

Sponsor(s): American Pomeranian Club, Inc., Anonymous, Pomeranian Philanthropists

Breed(s): Alaskan Malamute, Keeshond, Pomeranian

Disease(s): Alopecia

Abstract

Many young Pomeranians develop a luxurious puppy for first hair coat which fails to shed and is not replaced by an adult coat. As the puppy coat ages it breaks off and falls out and can result in a dog that is hairless over much of its body. This disease is sometimes called black skin disease, coat funk or woolly coat. It also occurs in Keeshonden and Alaskan Malamutes. Although females can have the disease, it is much more common in males. This suggests, but does not prove, that the mutation responsible for the disease is on the X chromosome. We propose to determine if a DNA marker from the canine X chromosome associates with the disease. If so, this marker could then be used to distinguish genetically normal puppies from puppies that are likely to develop the disease. This marker could also identify female puppies that will not develop the disease but are likely to pass the disease on to the next generation.