Effectively
preventing the structural destruction of joints, particularly bone and
cartilage, which progresses due to resistance to conventional anti-inflammatory
drugs, is one of the unmet medical needs in the treatment of rheumatoid
arthritis (RA). In this study, the authors investigated the therapeutic effects
of JTE-952, a novel colony-stimulating factor-1 receptor (CSF1R) kinase
inhibitor, on methotrexate-resistant joint destruction using a rat model of RA,
adjuvant-induced arthritis. Blocking CSF1/CSF1R signaling with JTE-952 did not
suppress paw swelling under inflammatory conditions, but it did suppress the
destruction of joint structural components, including bone and cartilage, in
inflamed joints and may improve subsequent joint dysfunction.
Fast-to-slow fiber transition in skeletal muscle occurs
during aging and has been implicated in muscle atrophy in sarcopenia, but the
mechanism is unclear. Authors showed that metallothionein 1 and 2 gene knockout
(MTKO) using the CRISPR-Cas9 system promoted to myogenic differentiation of
C2C12 myoblasts, which was accompanied by an increased number of slow-twitch
myotubes. The increased slow-type myotubes in MTKO cells was inhibited by an
antioxidant N-acetylcysteine, suggesting that MT may be involved in
specification of skeletal muscle fiber-type due to its antioxidant capacity. This
study may help to elucidate the mechanisms of age-related muscle weakness.
In Japan, the move towards
non-prescription emergency contraceptives is under discussion. A nation-wide
survey of 4,631 women conducted by the authors revealed that nearly half of
them lacked accurate knowledge about emergency contraceptives. Total of 43.6%
of women with previous experience needing emergency contraceptives chose not to
use them voluntarily. To address this, the authors emphasize the importance of
comprehensive sex education, and promoting understanding of emergency
contraceptives among women in Japan.
Microneedles are microscopic needle
structures with lengths of several hundred micrometers, and have
attracted attention as one way to improve skin barrier and moisturizing
functions as cosmetic product. However, conventional
microneedles are thought to work by penetrating the stratum corneum, which carries
the risk of side effects. Therefore, in this study, the authors applied
microneedles non-invasively without penetrating the stratum corneum and
investigated their effects on the skin. The results showed that microneedles
can improve skin barrier and moisturizing functions even when applied non-invasively.
This study provides valuable insights for the development of new cosmetic techniques
using microneedles.
The activity of Cav3.2 T-type calcium channels expressed
in the sensory neurons is reduced by physiological concentrations of zinc. Sulfides
including hydrogen sulfide (H2S), a gasotransmitter, enhance the channel
activity by removing zinc from Cav3.2, leading to the increased pain
sensitivity. Dietary zinc deficiency causes Cav3.2-dependent mechanical
allodynia in mice. Exogenously applied sulfides produce Cav3.2-dependent
allodynia in the mice fed with normal diet, but do not affect the already
developed allodynia in the mice fed with zinc-deficient diet. Thus, the authors
suggest that the enhanced Cav3.2 activity participates in the development of
pathological pain associated with zinc deficiency.