The Mid-Atlantic Centers for AIDS Research Consortium: Promoting HIV Science Through Regional Collaboration

The Centers for AIDS Research (CFAR) program was established by the National Institutes of Health in 1988 to catalyze and support high-impact HIV research and to develop the next generation of HIV investigators at academic institutions throughout the United States. In 2014, the Penn CFAR, the Johns Hopkins University CFAR and the District of Columbia CFAR developed a partnership-the Mid-Atlantic CFAR Consortium (MACC)-to promote cross-CFAR scientific collaboration, mentoring, and communication and to address the regional HIV epidemic. Over the past 6 years, the creation of the MACC has resulted in a rich web of interconnectivity, which has fostered through working groups on the black men who have sex with men (MSM) and Latinx regional HIV epidemics, joint peer-reviewed publications, and successful collaborative grant applications on topics ranging from HIV prevention in young MSM, transgender women, implementation science, and clinical epidemiology; supported through the MACC Scholars program, cross-CFAR mentoring, joint symposia, cross-CFAR seminar participation, and keynote speakers; and promoted through advisory committees, best practices consultations, and the social and behavioral science research network. The MACC has been highly impactful by promoting HIV science through regional collaboration, supporting a diverse network of scholars across three cities and focusing on the epidemic in underrepresented and marginalized communities. Lessons learned from this consortium may have implications for scientific research centers beyond the field of HIV

Reduced in vitro susceptibility of Streptococcus pyogenes to beta-lactam antibiotics associated with mutations in the pbp2x gene is geographically widespread

Recently two related Streptococcus pyogenes strains with reduced susceptibility to ampicillin, amoxicillin and cefotaxime, antibiotics commonly used to treat S. pyogenes infections were reported. The two strains had the same nonsynonymous (amino acid-substituting) mutation in the pbp2x gene encoding penicillin-binding protein 2X (PBP2X). This concerning report led us to investigate our library of 7,025 genome sequences of type emm1, emm28, and emm89 S. pyogenes clinical strains recovered from intercontinental sources for mutations in pbp2x. We identified 137 strains that combined had 37 nonsynonymous mutations in 36 codons in pbp2x. Although to a lesser magnitude than the two previously published isolates, many of our strains had decreased susceptibility in vitro to multiple beta-lactam antibiotics. Many pbp2x mutations were found only in single strains, but 16 groups of two or more isolates of the same emm type had an identical amino acid replacement. Phylogenetic analysis showed that with one exception, strains of the same emm type with the same amino acid replacement were clonally related by descent. This finding indicates that strains with some amino acid changes in PBP2X can successfully spread to new human hosts and cause invasive infections. Mapping of the amino acid changes onto a three-dimensional structure of the related Streptococcus pneumoniae PBP2X suggests that some substitutions are located in regions functionally important in related pathogenic bacterial species. Decreased beta-lactam susceptibility is geographically widespread in strains of numerically common emm gene subtypes. Enhanced surveillance and further epidemiological and molecular genetic study of this potential emergent antimicrobial problem are warranted

FIRST-SPIRE spectrometer: a novel imaging FTS for the submillimeter

The SPIRE instrument for the FIRST mission will consist of a three band imaging submillimeter photometer and a two band imaging Fourier Transform Spectrometer (FTS) optimized for the 200 - 400 micrometers range, and with extended coverage out to 670 micrometers. The FTS will be used for follow-up spectroscopic studies of objects detected in photometric surveys by SPIRE and other facilities, and to perform medium resolving power (R approximately 500 at 250 micrometers ) imaging spectroscopy on galactic and nearby extra-galactic sources