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Grant category: Research Grants in open competition

Year: 2016

Geography: Germany, USA

The 2017 Gordon Research Conference on Epithelial Differentiation and Keratinization (GRC-EDK), to be held May 6-12 in Italy, is the premier international meeting in epithelial biology.

It has been held biennially since 1979 with attendance from leading epithelial biology researchers, leaders from other fields, and early career scientists with innovative and exciting research programs to present and promote the latest conceptual, translational and technological advances in epithelial biology.

Today, the meetings take on stem cell biology, regenerative medicine, inflammatory skin diseases, skin cancer, epigenetics, and global genomics, and the program moreover explores developments in gene therapy, genome organisation, cell competition, stress responses as well as cutting edge advances in intravital imaging.

A third of the speakers are from outside the area in order to fuel new concepts and promote discussion of novel ideas, and more than a third of the oral presentations come from submitted abstracts to accommodate late breaking exciting stories and ensure speaking opportunities for young investigators.

To promote collaboration between academic medicine and industry the meeting also invites speakers from biotech and other academic scientists with strong industrial ties. Finally, the meeting will continue the commitment to trainee mentorship, including a career mentoring panel discussion with special emphases on careers in academia versus industry, and the importance of diversity within science.

Link to the meeting homepage.

Grant category: Research Grants in open competition

Year: 2016

Geography: Ireland, United Kingdom, USA

This is an exciting project that, with the international group’s extensive research and know-how in mind, has the potential to create an intriguing base for novel personalised treatments for atopic dermatitis (AD). The project moreover holds an innovation potential that may make it stand out in the emerging global bio-economy.

The prevalence of AD, an inflammatory skin disease resulting in itchy, red, swollen and cracked skin, is constantly increasing. Today, it affects 15-30 percent children and 2-10 percent adults worldwide, presenting a significant economic burden to healthcare systems.

There is no cure for AD, only soothing of the symptoms. In the majority of AD patients, the disease is a consequence of a blend of genetic defects of the skin barrier defects and abnormal immune responses influenced by environmental factors.

Until now, the models used to assess the interplay are not particularly predictive. The group behind this project aims to change this by using the latest advances in stem cell science, gene editing and tissue engineering to develop and validate innovative 3D in vitro models of skin – making the models similar to skin in AD patients by emulating full thickness skin of varying barrier integrity; faulty, partially repaired or intact, and immune response composition.

As part of the project, the group will also develop mathematical computer models to accurately address the predictive, prognostic and therapeutic outcome of personalised AD therapy – in order to address co-dependence of the quantitative and qualitative changes in skin barrier and activation of immune cells.

The 3D models will also be made available to test various novel therapeutic approaches for AD treatment in a patient specific manner.

Grant category: Research Grants in open competition

Year: 2016

Geography: USA

Vitiligo, an acquired skin disease in which pigment cells, melanocytes, are destroyed, affects 1-2% of people worldwide. The disease deprives the skin of photoprotection leaving it more susceptible to solar damage and compromised cutaneous immunity – and the disease impacts physical and mental health.

Vitiligo is thought to occur in genetically susceptible individuals after being exposed to environmental triggers. Some individuals develop contact vitiligo after direct exposure to certain chemicals. As disease progression in vitiligo is independent from initiating factors, this subset of individuals makes it possible to study vitiligo at large.

The hypothesis in this project is that melanocytes from healthy individuals can withstand exposure to triggers by initiating a stress response regimen that allows the cell to return to homeostasis. These pathways may be disrupted in individuals who develop vitiligo, leaving melanocytes stressed following challenge, causing them to be targeted for removal by the immune system.

In order to investigate this hypothesis, the project will investigate survival pathways in melanocytes cultured from biopsies taken from pigmented skin from individuals who have developed vitiligo.

Grant category: Research Grants in open competition

Year: 2016

Geography: USA

The IEC is convening a meeting at the ESDR in September 2015 to write a position paper on Atopic Dermatitis as a systemic disease.

In March 2016, the IEC will hold a session at the Annual AAD in Washington, D.C. focusing on AD phenotyping – starting to use biomarkers to assess subgroups of AD, which may be relevant to the understanding of disease and treatment decision-making.

Grant category: Research Grants in open competition

Year: 2013

Geography: USA

Itch is probably the most common symptom in dermatology and it is associated with a significant impact on the patient’s life.

A team led by Professor Martin Steinhoff, University of California San Francisco, has set out to develop novel targeted therapies for chronic itch in humans.

Besides the lesional and non-lesional as compared to healthy skin, the project team will also identify critical itch mediators and/or receptors that are expressed (and activated) in human dorsal root ganglion (DRG) and spinal cord tissue. To address this, mediators will be identified as well as receptors associated with human itch, and thereby the team will be able to define “biomarkers” for the different pruritic human diseases.

The project will be the first-of-a-kind study to analyse the expression and distribution of key itch mediators and receptors in human skin, human DRG and human spinal cord, and will therefore provide a significant basis for future translational research that targets these mediators/receptors in the different subtypes of itch.

Moreover, it is the first time that it will be tested whether several new itch pathways that have been described in murine skin models are relevant, i.e. can be translated, in human disease state.

Grant category: Research Grants in open competition

Year: 2013

Geography: USA

Despite considerable impact on quality of life, atopic dermatitis, or eczema, has not been studied extensively in children although as many as one in five experience the condition. Atopic dermatitis, or eczema, is a chronic skin condition, characterised by itching and inflammation, and frequently occurs in people who have other allergic conditions, such as asthma and hay fever.

Dr. Guttman has set out to define the skin and blood biomarkers of atopic dermatitis in children. She and her team will investigate how skin biomarkers compare to disease activity, epidermal barrier function and known biomarkers in adults with atopic dermatitis. They will also investigate whether blood biomarkers could offer a less invasive way to monitor skin changes than a skin biopsy, which can be difficult to perform in children.

With better knowledge of what causes atopic dermatitis in children, the researchers hope to develop more targeted therapies for the disorder as well as for other atopic conditions, such as asthma and hay fever. Together, these three disorders form an “atopic triad”.

Publications:

Early pediatric atopic dermatitis shows only a cutaneous lymphocyte antigen (CLA)+ TH2/TH1 cell imbalance, whereas adults acquire CLA+ TH22/TC22 cell subsets

J Allergy Clin Immunol. 2015 Oct; 136(4): 941–951.e3.

Early-Onset Pediatric Atopic Dermatitis Is TH2 but Also TH17 Polarized in Skin

J Allergy Clin Immunol 138 (6), 1639-1651. 2016 Sep 23.

Alterations in B-cell subsets in pediatric patients with early atopic dermatitis

J Allergy Clin Immunol. 2016 Dec 10 pii: S0091-6749(16)31452-X

Accelerated T-cell activation and differentiation of polar subsets characterizes early atopic dermatitis development

J Allergy Clin Immunol. 2016 Nov;138(5):1473-1477.e5

An IL-17-dominant immune profile is shared across the major orphan forms of ichthyosis.

J Allergy Clin Immunol. 2017 Jan;139(1):152-165

Grant category: Research Grants in open competition

Year: 2012

Geography: USA

The LEO Foundation is supporting another project that investigates
itching and may also pave the way for new anti-itch treatments.

The study is led by Dr Gil Yosipovitch, MD, Professor of the Department of Dermatology at Wake Forest School of Medicine, Winston-Salem, North Carolina, USA, and seeks to investigate aspects of itching in patients with atopic dermatitis and psoriasis.

Itching affects millions of people worldwide and represents a significant medical challenge as no mechanism-specific treatments are currently available. The genetic aspects of itching in chronic pruritic conditions such as atopic dermatitis and psoriasis are also rather under-investigated.

Dr Gil Yosipovitch will examine the expression of genes, neuropeptides and other itch-specific mediators specifically implicated in atopic dermatitis and psoriasis in comparison to healthy controls.

The exploration of this area may hold good news for patients, as the findings may be useful in developing new anti-itch treatments.

Publication