Explore our grantees and awardees

Grant category: Serendipity Grants

Year: 2024

Geography: USA

Ya-Chieh Hsu’s project investigates the mechanisms behind the unexpected observation that wound healing slows upon increased innervation of the surrounding tissue.

During testing of a virus-based tool designed to genetically manipulate skin cells Ya-Chieh Hsu and her team serendipitously discovered that increased innervation at a wound site slows healing and leads to increased scarring. This discovery suggests that wound-induced hyper-innervation may be important in driving scarring and fibrosis.

Grant category: Serendipity Grants

Year: 2024

Geography: USA

Philip Scumpia’s project will investigate a surprising discovery that links gender to differences in immune responses.

Philip Scumpia and his team created new formulations of biomaterials intended to improve cutaneous wound healing and decrease size of scars in his current LEO Foundation-funded project. While evaluating the immunological mechanisms, Philip and his team observed considerable variability in immune cell recruitment to the different hydrogels. After careful scrutiny they realized this variability was entirely due to the fact that female mice developed stronger immune responses to the hydrogel than male mice. Strikingly, female mice displayed a much earlier and more severe skin inflammation in other mouse models studied in the laboratory includingeczema, psoriasis, and sunburn.

Grant category: Serendipity Grants

Year: 2024

Geography: USA

Nathan Archer’s project investigates the surprising finding that dermal adipocytes and their crosstalk with eosinophils may play an important role in the development of atopic dermatitis.

The aim of Nathan Archer’s original project was to investigate the role of eosinophils, a type of immune cell, in the pronounced bacterial dysbiosis seen in relation to atopic dermatitis (AD). During those studies, Nathan Archer and his team serendipitously discovered an unexpected interaction of adipocytes with eosinophils in the skin, which was also associated with skin inflammation. This novel link will be investigated in Nathan’s project.

Grant category: Standalone grants

Year: 2024

Geography: USA

This interdisciplinary event will convene leading experts in the field of science of science and innovation, aiming to provide a multi-channel platform that brings together both producers (scientists from industry and academia) and consumers (policymakers, publishers, funders, administrators, etc.) of the field.

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Grant category: Research Networking

Year: 2024

Geography: USA

The goal of the 71st Annual Montagna Symposium, Skin of Color Dermatology: The Interaction of Science & Society, is to promote practicing clinicians, residents, trainees, basic and translational researchers who are underrepresented in science and medicine, assembling leading scientists and clinicians engaged in research and treatment of diseases that disproportionately affect skin of color to share knowledge and foster collaborations.

The event will take place on 17-21 October 2024 in Washington, USA and aim to enable interaction between new and established scientists and dermatologists who work collectively to advance the field of skin research. The format will include short talks organized in sessions by topic, with time for questions and discussion. Young investigators get the opportunity to interact with experienced researchers and clinicians in their fields both formally and informally throughout the meeting, and the meeting provides participants with a springboard for new research activities or clinical practices.

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Grant category: Research Grants in open competition

Year: 2024

Geography: USA

Xiaoyang Wu’s project aims to engineer self-amplifying RNA vector as a platform for gene therapy of recessive X-linked ichthyosis, with potential for treatment of other skin diseases.

Skin ichthyoses are a group of heterogeneous genetic diseases that are characterized by hyperkeratosis, localized or generalized scaling, and often associated with xerosis, hypohidrosis, erythroderma, and recurrent infections. So far, mutations in more than 50 genes have been shown to cause ichthyosis, which affect a variety of different cellular processes, ranging from DNA repair, lipid biosynthesis, cell adhesion, and skin differentiation. Recessive X-linked ichthyosis (RXLI) is the second most common form of inherited ichthyosis. RXLI is caused by mutations in the STS gene on the X chromosome, which encodes microsomal steroid sulfatase. The skin abnormalities of RXLI are caused by the impact of excess cholesterol sulfate, which affects lipid synthesis, organization of the lamellar lipids that provides the skin permeability barrier, corneodesmosome proteolysis, and epidermal differentiation.

As a genetic disorder, RXLI is a life-long condition that can significantly affect domestic life and cause psychological problems for the patients. More effective treatment beyond current symptomatic management is urgently needed. Xiaoyang Wu’s project will explore the possibility that engineered self-amplifying RNA vector can serve as a novel platform for gene therapy of RXLI.

Xiaoyang Wu’s project may serve as proof-of-concept for a novel paradigm for the treatment of patients with genetic skin disorders.

Grant category: Research Grants in open competition

Year: 2024

Geography: USA

Jeffrey Rasmussen’s project investigates the mechanisms governing Langerhans cells’ immune response in wound healing, particularly the role of the microtubule cytoskeleton.

Skin provides a robust and durable physical barrier essential for regulating hydration and repelling pathogens. Damage to skin must be rapidly resolved to maintain organ homeostasis. Epidermal-resident immune cells known as Langerhans cells use dendritic protrusions to dynamically surveil the skin microenvironment, which contains epithelial keratinocytes and somatosensory peripheral axons.

The mechanisms governing Langerhans cell dendrite dynamics and responses to tissue damage are not well understood. Jeffrey Rasmussen and his lab have developed a tractable system using adult zebrafish to study Langerhans cell dynamics. Initial studies using this system revealed several new discoveries, including: 1) that Langerhans cells are the primary phagocyte for degenerating somatosensory axons; 2) Langerhans cells undergo stereotyped responses to local and tissue-scale keratinocyte wounds; and 3) the actin regulator ROCK regulates key aspects of Langerhans cell wound responses. Despite advances in identifying mechanisms of actin function in Langerhans cells, roles for the microtubule cytoskeleton in Langerhans cell biology remain essentially unknown. In preliminary studies, Jeffrey Rasmussen has developed a novel transgenic reporter for microtubules in Langerhans cells and found that the microtubule cytoskeleton dynamically reorganizes during wound responses. His project aims to determine how the microtubule cytoskeleton contributes to the intracellular trafficking and dynamic wound responses of Langerhans cells.

The results of Jeffrey Rasmussen’s project could lead to new fundamental understandings of Langerhans cell biology and dynamics.

Grant category: Research Grants in open competition

Year: 2024

Geography: USA

Wei Tao’s project explores the biological mechanisms to improve wound healing in adults by mimicking the scarless fetal wound healing process. This project aims to engineer a system that replicates the fetal extracellular matrix and immune responses, using mRNA techniques to produce specific proteins and inhibit biological processes leading to scar formation. This system employs lipid nanoparticles for mRNA delivery and hydrogel for controlled release, enabling spatiotemporal control of key components like collagen type III and interleukin-10, thereby reconstituting fetal-like extracellular matrix organization and modulating over-activated immune responses.

The project’s goals include establishing a foundation for future scarless wound healing studies, developing a hybrid mRNA therapeutic platform for skin defects and diseases, and correlating extracellular matrix and immune modulation with subsequent biological processes and outcomes. This research has promising potential for clinical applications in wound care and other dermatological diseases.

Grant category: LEO Foundation Awards

Year: 2024

Geography: USA

Dr. Shruti Naik is Associate Professor at the Ronald O Perelman Department of Dermatology, NYU Langone Health, in the US.

She receives the award in recognition of her exceptional scientific achievements, clear long-term career objectives, and innovative vision for skin research – which delves into the complex interactions between immune cells, surrounding skin cells, and skin-dwelling microbes to understand the origins and progression of skin diseases.

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Grant category: Research Networking

Year: 2024

Geography: USA

The Future Leaders Retreat (previously known as Resident and Post Doc Retreat) is a conference hosted by the Society for Investigative Dermatology (SID) each year since 2001. The program format provides a protected space in which residents can interact with senior faculty and established investigators for the purpose of fostering attendee’s interest in academic research careers. The program is a combination of formal lectures and presentation, informal discussions, brainstorming sessions and social activities. The Retreat is held at the time of the SID annual meeting, which allows attendees to establish connections with each other, and to other meeting attendees. These social networks foster collegiality, collaborations, an appreciation for the creative, multidisciplinary nature of science and other productive interactions. Sustained exposure to the entire spectrum of dermatologic research will influence the trainees as they make their career decision, as well as build their enthusiasm for this area of science.

More information: https://www.sidannualmeeting.org/