Editorial on the Research Topic of the Special Issue “Current Status of Acinetobacter Infections”

Emerging bacterial infections will continue to be an important issue for public health, mostly because of the constant changes on our earth [...].

A. baumannii can use to become resistant. This leads to the strain definition as unstable or stable colistin-resistant and overall, to the so-called dynamism hypothesis of the COL-R stability acquisition.
In the field of studying genome dynamics, it is known that clustered, regularly interspaced, short palindromic repeat (CRISPR)/Cas systems, existing in most bacteria, may target either DNA or RNA to interfere with viruses, plasmids, prophages, or other chromosomally encoded sequences. Tyumentseva et al. [11], in their paper, demonstrated in A. baumannii the role of CRISPR/Cas systems in controlling antibiotic resistance gene transfer and acquisition and a clear association of MDR genotype/phenotype of A. baumannii with the type of its CRISPR/Cas system. MDR clones circulated among humans, companion animals, and the environment, and in-depth genomic studies have been frequently carried out also in veterinary medicine. Different typing methods, including the conventional MLST typing, core-genome MLST (cgMLST), pan-genome analysis, and single nucleotide polymorphisms (SNP)-based molecular clock analysis have been employed for a comparative investigation on clinical canine, environmental and human reference strains [12]. This study demonstrated that animals and humans shared identical clones (ST2) and the same B-lactamase (blaOXA-66), underlining the importance of genomic investigation in the veterinary field in studying A. baumannii. It is clear that the surveillance of antimicrobial-resistant A. baumannii can increase awareness and help reduce the transmission of MDR A. baumannii infections in different surroundings, providing additional tools for genomic evolutionary studies.
Research on possible strategies to contain resistance is included in antimicrobial management programs and, of relevance are the statistically significant associations between different antimicrobials that can be derived from valuable study tools, such as predictive models [13].
Overall, this Special Issue collected papers on A. baumannii infections, focusing on new and useful diagnostic methods and highlighting the importance of studies with a One Health approach. Furthermore, it allowed us to underline the importance of genomic investigation combined with molecular insights with different techniques and statistical correlation studies in the field of antimicrobial resistance.
Taken together, these 11 contributions (seven original articles and four reviews) published in this Special Issue reinforce the importance of studies on this bacterium in various diseases of human and animal origin.
Given the success of this Special Issue, a Pathogens webinar on 10 March 2022, online, entitled "Current Status of Acinetobacter Infections" was organized. It was a useful moment to set up an international scientific discussion. According to research, many people use webinars for information and updates on certain topics; hosting a webinar on this topic for a large audience (more than 80 people attended the webinar), that has allowed us to provide innovative knowledge that addresses the problems of antibiotic resistance of Acinetobacter infections, was a great pleasure for us.
We would like to thank the authors and reviewers of the papers in this Special Issue. We are also grateful to the Managing Editor, for her support, guidance, and help in coordinating the compilation of this Special Issue. Finally, this issue would not have achieved its high level of quality without the diligence and insights of all reviewers who provided high-quality reviews.
Author Contributions: F.P.N. and L.D.M., writing-original draft, preparation review, and editing. All authors have read and agreed to the published version of the manuscript.

Conflicts of Interest:
The authors declare no conflict of interest.