HONG
KONG, Dec. 23, 2024 /PRNewswire/ -- A research
led by Hong Kong Baptist University
(HKBU) and the Shanghai Sixth People's Hospital Affiliated to
School of Medicine at Shanghai Jiao Tong University (Shanghai Sixth
People's Hospital) has discovered that an aptamer developed by HKBU
can be used to treat X-linked
hypophosphatemia (XLH), a rare bone disease. The aptamer,
originally developed to treat osteogenesis imperfecta, has been
granted Orphan Drug Designation and Pediatric Rare
Disease Designation by the U.S. Food and Drug Administration
(FDA).
XLH ("X" denotes X-chromosome, a sex-determining chromosome) is
a rare bone disease characterised by hypophosphatemia (i.e.,
low phosphate in blood). It is caused by a mutation in the
phosphate regulating endopeptidase homolog
X-linked (PHEX) gene, and its inheritance pattern
follows an X-linked dominant mode. The bone tissue of XLH patients
cannot mineralise properly, thereby affecting the hardness of the
bones. The cartilage between the ribs of children with XLH grows
and connects like beads strung together. They also result in limb
deformities and growth retardation. Adult patients experience
symptoms such as osteomalacia, bone pain, changes in body
shape, shorter stature and pseudo-fractures, leading to reduced
mobility or even disability.
Professor Zhang Ge, Associate Dean (Research) of Chinese
Medicine and Director of the Law Sau Fai Institute for Advancing
Translational Medicine in Bone and Joint Diseases at HKBU, and
Professor Zhang Zhenlin, Director of Osteoporosis and Bone Diseases
of the Shanghai Sixth People's Hospital, along with Aptacure
Therapeutics Ltd., have developed a long-acting sclerostin-loop3
oligonucleotide aptamer for the treatment of XLH. This aptamer has
been granted Orphan Drug Designation and Pediatric Rare
Disease Designation by the U.S. FDA for treatment of XLH earlier
this year.
Researchers conducted serum tests on 51 patients with XLH from
the Shanghai Sixth People's Hospital. The results showed that
their serum sclerostin levels were approximately 4.5 times higher
than those of healthy individuals of the same age and gender.
Sclerostin is a protein that inhibits bone growth while playing
a protective role in the cardiovascular system. Genetic evidence
shows that sclerostin deficiency significantly elevates serum
phosphorus levels and increases bone mass in mice. However,
the monoclonal sclerostin antibody currently used increases
the risk of heart attacks, stroke and cardiovascular diseases.
The research team discovered that sclerostin inhibits bone
formation and protects the cardiovascular system through different
domains of the protein. When sclerostin loses the "loop3 domain",
bone mass and strength increase, but its cardiovascular protective
effect remains unaffected. The "loop3 domain" of sclerostin can
therefore serve as a therapeutic molecular target to promote bone
formation, with no safety concern in the cardiovascular system.
The researchers then screen out oligonucleotide aptamers Apc001
that can inhibit the sclerostin loop3. Animal experiments showed
that Apc001 can promote bone formation without increasing
cardiovascular risk. It can also significantly increase the blood
phosphorus levels of mice with XLH. This is expected to provide a
drug candidate for the precise treatment of XLH patients.
According to the regulations of the U.S. FDA, once a drug under
development obtains Orphan Drug Designation, its subsequent
research and development may allow for a reduction in the number of
clinical trial samples, be exempt from new drug marketing
authorisation fees, and enjoy seven years of market exclusivity.
Pediatric Rare Disease Designation allows drugs to be reviewed
with priority. Having been designated as both an orphan drug and a
pediatric rare disease by the U.S. FDA, Apc001 can accelerate its
clinical translation and is expected to benefit patients with XLH
sooner.
Currently, the pilot scale production of Apc001 has been
completed and is undergoing the preclinical toxicological
assessment by a third party. Apc001 is scheduled to enter clinical
trials in both Mainland China and the U.S.
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SOURCE Hong Kong Baptist
University