Accepted

Innate immune cells play important roles in tissue injury and repair following acute myocardial infarction (MI). Although reprogramming of macrophage metabolism has been observed during inflammation and resolution phases, the mechanistic link to macrophage phenotype is not fully understood. In this study, we found myeloid specific deletion of mitochondrial Complex I protein Ndufs4 (mKO) reproduced the proinflammatory metabolic profile in macrophages and exaggerated the response to lipopolysacharride. Moreover, mKO mice showed increased mortality, poor scar formation and worsened cardiac function 30 days post-MI. We observed a greater inflammatory response in mKO on day 1 followed by increased cell death of infiltrating macrophages and blunted transition to reparative phase during day 3-7 post-MI. Efferocytosis is markedly impaired in mKO macrophages leading to lower expression of anti-inflammatory cytokine and tissue repair factors, which suppressed the proliferation/activation of myofibroblasts in the infarct area. Mitochondria-targeted ROS scavenging rescued these impairments and improved myofibroblast function in vivo and reduced post-MI mortality in mKO mice. Together these results reveal a novel role of mitochondria in inflammation resolution and tissue repair via modulating efferocytosis and crosstalk with fibroblasts. The findings are significant for post-MI recovery as well as for other inflammatory conditions.

We aimed to describe the natural history leading to end-stage knee osteoarthritis (esKOA), focusing on knee symptoms, radiographic severity, and the presence of limited mobility or instability.

Adolescents with recurrent pain miss out from school more often than pain-free peers. Research has so far used cross-sectional designs, focusing on non-specific absenteeism in clinical samples. Hence, it is unknown whether estimates of absenteeism are specifically linked to the pain itself or reflects the characteristics of clinical samples. This study aimed to prospectively explore pain-related school absenteeism in a non-clinical sample, its variance and potential risk factors.

Most patients with psoriatic arthritis begin with cutaneous psoriasis, which is why all early detection strategies are based on screening in the dermatological consultation and referral to a rheu matologist. However, there are cases of patients who consult initially for musculoskeletal symptoms, mostly joint pain, regardless of family and/or personal history of psoriasis. This study aimed to esti mate the frequency of psoriatic arthritis in a cohort of patients who consulted for polyarthralgia and to determine the differential features, at the time of clinical presentation, in relation to both patients with final diagnosis other than psoriatic arthritis and patients with diagnosis of rheumatoid arthritis.

Mice are the most commonly used model animals for itch research and for development of anti-itch drugs. Most labs manually quantify mouse scratching behavior to assess itch intensity. This process is labor-intensive and limits large-scale genetic or drug screenings. In this study, we developed a new system, Scratch-AID Automatic Itch Detection), which could automatically identify and quantify mouse scratching behavior with high accuracy. Our system included a custom-designed videotaping box to ensure high-quality and replicable mouse behavior recording and a convolutional recurrent neural network (CRNN) trained with frame-labeled mouse scratching behavior videos, induced by nape injection of chloroquine (CQ). The best trained network achieved 97.6% recall and 96.9% precision on previously unseen test videos. Remarkably, Scratch-AID could reliably identify scratching behavior in other major mouse itch models, including the acute cheek model, the histaminergic model, and a chronic itch model. Moreover, our system detected significant differences in scratching behavior between control and mice treated with an anti-itch drug. Taken together, we have established a novel deep learning-based system that is ready to replace manual quantification for mouse scratching behavior in different itch models and for drug screening.

Langerhans cells (LCs) are the sole professional antigen-presenting cell normally found in the human epidermal compartment. Research into their physiological role is hindered by the fact that they are invariably activated during isolation from the skin. To overcome this challenge, we turned to a monocyte-derived LC model (moLC), which we characterized with RNASeq, and compared the transcriptome of moLCs to donor-matched immature dendritic cells. We found that moLCs express markers characteristic of LC2 cells, as well as transient receptor potential vanilloid 4 (TRPV4). TRPV4 is especially important in skin, as it has been linked to conservation of the skin barrier, immunological responses as well as acute and chronic itch, but we know little about its function on LCs. Our results show that TRPV4 activation increased the expression of Langerin and led to increased intracellular calcium concentration in moLCs. Regarding the functionality of moLCs, we found that TRPV4 agonism had a mitigating effect on their inflammatory responses, since it decreased their cytokine production, and T cell activating capability. As TRPV4 has emerged as a potential therapeutic target in dermatological conditions, it is important to highlight LCs as a novel target of these therapies.

The recurrence of post-traumatic trigeminal neuropathic pain (PTTNp) following peripheral microneurosurgery continues to be poorly understood. The objective of this study was to determine if the time from injury to surgery of the trigeminal nerve in patients with PTTNp affected the recurrence of PTTNp following surgery.