Diagnostics
Molecular Profiling Advances Diagnosis, Treatment of Skin Diseases
Skin diseases both common and rare can be better
diagnosed and treated using genetic fingerprinting based on knowledge gained
through a new UC San Francisco study, according to researchers who developed
new approaches for using the latest techniques to analyze gene activity in
cells obtained from affected skin.
The study, published April 15, 2022, in Science
Immunology, was led by Raymond Cho, MD, PhD, and Jeffrey Cheng, MD, PhD,
associate professors in the Department of Dermatology at UCSF. This successful
“precision medicine” approach is based on analysis of activity of thousands of
genes within individual immune cells, profiling 41 different cell types per
patient.
“Our study
describes how advanced molecular profiling can be used to clearly distinguish
different inflammatory skin diseases – including the common diseases psoriasis
and atopic dermatitis – and also to better diagnose rarer and much more
difficult cases,”
Cheng said.
In the study, the researchers also describe the
development of an online tool, called RashX, which allows the global clinical
research community to enter and match genetic data from rash patients against
those in the database, which are linked to specific skin diagnoses.
“Importantly,
our work demonstrates how this publicly available framework will allow
scientists all over the world to analyze and contribute their own patient-level
data, thereby improving the diagnosis of puzzling cases,” Cheng said.
Psoriasis and atopic dermatitis are common and
often serious skin diseases requiring different treatments. Psoriasis affects
more than 7.5 million people in the United States, and even mild-appearing
cases may trigger inflammatory processes that eventually lead to serious
co-morbidities such as disabling arthritis. Atopic dermatitis affects about 26
million people in the U.S., and can cause relentless itching, skin oozing and
cracking, and insomnia in severe cases.
Both diseases are inflammatory, but research has
shown how distinct biochemical pathways trigger inflammation in the two
conditions, leading to new biologic treatments specifically targeting different
inflammatory pathways and immune cytokine molecules. However, the conditions
often cannot be distinguished based on knowledge of symptoms, clinical
examination, or even with the aid of tissue analysis, challenging even
well-trained and experienced dermatologists, leading to misdiagnosis and
inappropriate treatment, according to the authors.
Earlier studies often failed to identify
consistent molecular differences between the diseases. Cho and Cheng speculated
that a finer analysis of immune cell populations might reveal new
cell-type-specific differences in gene activity between inflamed and healthy
skin, or between different classes of skin disease.
In the new study, the researchers measured amounts
of specific RNA molecules in individual cells. The “transcription” of specific
RNA sequences from genes is a step in the cell’s activation and production of specific
proteins. The study subjects included cases of classic psoriasis and atopic
dermatitis, as well as clinically ambiguous rashes. An analysis of skin
biopsies using the researchers’ new protocol revealed both commonalities and
differences among the different diseases.
The researchers determined that lymphocytes known
as skin-resident memory T cells contained the most distinguishable patterns of
transcription between psoriasis and atopic dermatitis. Hundreds of genes were
differently expressed in the two conditions and represent a signature that
could correctly diagnose other patients.
When the researchers analyzed clinically ambiguous
rash cases using the same panel of genes, they found that cases responding well
to dupilumab – an atopic dermatitis treatment targeting the interleukin 4
receptor subunit α – exhibited patterns of gene expression more closely
resembling atopic dermatitis. In contrast, a poorly responding case more
closely resembled psoriasis.
“Our work
is a clear example of the way in which a precision medicine approach shows
promise for improving clinical outcomes,” Cheng concluded.
Source: University of California San Francisco