Dathe Benissan-Messan scite author profile

Objective As a product of oxidative stress associated with tolerance loss in other disease states, we investigated the presence of malondialdehyde-acetaldehyde (MAA) adducts and circulating anti-MAA antibody in rheumatoid arthritis (RA). Methods Synovial tissues from RA and osteoarthritis patients were examined for the presence of MAA-modified and citrullinated proteins. Anti-MAA antibody isotypes were measured in RA cases (n = 1720) and healthy controls (n = 80) by ELISA. Antigen-specific anti-citrullinated protein antibody (ACPA) was measured in RA cases using a multiplex antigen array. Anti-MAA isotype concentrations were compared in a subset of cases (n = 80) and matched controls (n = 80). Associations of anti-MAA antibody isotypes with disease characteristics, including ACPA, were examined in all RA cases. Results MAA adducts were increased in RA synovial tissues relative to osteoarthritis and co-localized with citrullinated protein. Anti-MAA antibody isotypes were increased in RA cases vs. controls (p < 0.001). Among RA cases, anti-MAA antibody isotypes were associated with ACPA and RF positivity (p < 0.001) in addition to select measures of disease activity. Higher anti-MAA antibody concentrations were associated with a higher number of positive antigen-specific ACPA analytes in high titer (p < 0.001) and a higher ACPA score (p < 0.001) independent of other covariates. Conclusion MAA adduct formation is increased in RA and appears to result in robust antibody responses that are strongly associated with ACPA. These results support speculation that MAA formation may be a co-factor that drives tolerance loss resulting in the autoimmune responses characteristic of RA.

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National Utilization of Surgery and Outcomes for Primary Tracheal Cancer in the United States

Benissan-Messan

Merritt

Bazan

et al. 2020

The Annals of Thoracic Surgery

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Cystoisospora belli Gallbladder Infection in a Liver Transplant Donor

Akateh

Arnold

Benissan-Messan

et al. 2018

Case Reports in Infectious Diseases

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Introduction Cystoisospora belli (previously Isospora belli) is a parasitic protozoan of the human gastrointestinal system. It rarely causes symptoms in immunocompetent hosts but can cause severe diarrhea in immunocompromised patients, with a rate of recurrence and risk of dissemination. Gallbladder infections are however rare. The treatment of choice for symptomatic patients is a 7–10-day course of trimethoprim-sulfamethoxazole. Case In this case, we report on an incidental finding of Cystoisospora belli organisms in the donor gallbladder following a transplant cholecystectomy. There was no report of symptoms in the donor. The recipient was treated with a course of trimethoprim-sulfamethoxazole, without evidence of cystoisosporiasis. Given the risk of recurrence in immunocompromised hosts, the patient will continue to be monitored for reactivation in the future. Conclusion Despite advances in transplant protocols and screening, disease transmission from the donor to recipient still occurs in about 0.2% of all organ transplants. With the increased use of organs from drug overdose victims and other high-risk donors, practitioners (including pathologists, hepatologists, and surgeons) must maintain a high index of suspicion for such potentially harmful organisms.

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Cardiac effects and clinical applications of MG53

Zhong

Benissan-Messan

et al. 2021

Cell Biosci

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Heart disease remains the leading cause of mortality globally, so further investigation is required to identify its underlying mechanisms and potential targets for treatment and prevention. Mitsugumin 53 (MG53), also known as TRIM72, is a TRIM family protein that was found to be involved in cell membrane repair and primarily found in striated muscle. Its role in skeletal muscle regeneration and myogenesis has been well documented. However, accumulating evidence suggests that MG53 has a potentially protective role in heart tissue, including in ischemia/reperfusion injury of the heart, cardiomyocyte membrane injury repair, and atrial fibrosis. This review summarizes the regulatory role of MG53 in cardiac tissues, current debates regarding MG53 in diabetes and diabetic cardiomyopathy, as well as highlights potential clinical applications of MG53 in treating cardiac pathologies.

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Multi-Cellular Functions of MG53 in Muscle Calcium Signaling and Regeneration

et al. 2020

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Since its identification in 2009, multiple studies have indicated the importance of MG53 in muscle physiology. The protein is produced in striated muscles but has physiologic implications reaching beyond the confines of striated muscles. Roles in muscle regeneration, calcium homeostasis, excitation-contraction coupling, myogenesis, and the mitochondria highlight the protein's wide-reaching impact. Numerous therapeutic applications could potentially emerge from these physiologic roles. This review summarizes the current literature regarding the role of MG53 in the skeletal muscle. Therapeutic applications are discussed.

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