Hypergranulation is a common complication of wound healing that dermatologists encounter and is characterized by excess granulation tissue, which results in delayed healing and reepithelialization. Though many treatment options have been presented in the literature, less invasive and irritating treatment regimens are often preferred in the pediatric population. Here we present a case of a 14-year-old female with hypergranulation tissue (HGT) of the scalp that was successfully treated with topical corticosteroids (TCS). Additionally, a literature review was conducted to determine the prevalence of topical corticosteroid use for HGT in the pediatric population. Although not first line, TCS should be considered as a non-invasive and painless treatment for HGT in the pediatric population.
Cdc48/p97/VCP is an AAA ATPase, conserved in eukaryotes and archaea, which is demonstrated to convert chemical energy from the hydrolysis of ATP into the mechanical energy, for either unfolding protein substrates or dislodging protein substrates from complexes. The role of Cdc48 in ubiquitin mediated protein degradation has been well reported; however, its role in DNA repair is less understood so far. Evidence in eukaryotes which implicates Cdc48 in DNA repair is based on the association of Cdc48 with partners and substrate proteins, which are known to be involved in DNA damage response. In our study, we found Cdc48A of Haloferax volcanii co‐purifies with RecJ‐domain (RecJ3 and RecJ4) and RNase J1 homologs in an apparent thiol sensitive complex that binds the oxidative stress‐responsive, ubiquitin‐like SAMP1 in the presence of ATP. RecJ domain proteins are DNases reported to be involved in DNA repair pathways in bacteria. Further analysis revealed an Hfx. volcanii Δcdc48A mutant showed significant difference in survival when compared to its wildtype, on subjecting them to DNA damaging agents like phleomycin and UV. An increase (up to 3.4‐fold; p < 0.05) in transcript levels of cdc48a, recj3 and rnj1 was observed after treatment with the DNA damaging agent phleomycin, suggesting the expression of these genes is correlated with DNA repair. Current focus of this study is to decipher the role of Cdc48A in DNA repair by identifying its partner and substrate proteins. In addition, we are determining the substrate modifications required for signaling the Cdc48A mediated repair pathway using classic biochemistry techniques and genetic manipulations.Support or Funding InformationThe work was supported by funds awarded to Dr. Julie A. Maupin‐Furlow through the Bilateral NSF/BIO‐BBSRC program (NSF 1642283), U.S. Department of Energy, Office of Basic Energy Sciences, Division of Chemical Sciences, Geosciences and Biosciences, Physical Biosciences Program (DOE DE‐FG02‐05ER15650) and the National Institutes of Health (NIH R01 GM57498).This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.
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