Abstract
The Mycobacterium tuberculosis complex (MTBC) phylogenetic lineages 1-4 (L1-L4) are the main causes of human tuberculosis (TB). Until now, most of the focus in the TB field has been on MTBC L2 and L4, as these two lineages are geographically widespread and have been repeatedly associated with multidrug resistance. By comparison, MTBC L1 has received little attention, partially because of its restricted geographical range that mainly includes low- to middle-income countries in South and Southeast Asia, and East Africa. However, recent estimates indicate that MTBC L1 is in fact the most common cause of human TB in terms of absolute numbers of TB patients, particularly among several high TB burden countries. As more L1 strains are being sampled in L1-endemic countries, the high genetic diversity of this geographically restricted MTBC lineage is slowly uncovered. This discovery has also impacted L1 nomenclature, which has been modified as new distinct L1 clades were identified. In parallel to the genomic discoveries ushered by progress in whole genome sequencing, clinical researchers have also studied several phenotypes that better describe L1 TB disease. L1 strains have been shown to have increased vulnerability to oxidative stress, which was associated with decreased virulence in animal and in vitro models. L1 infection also shows possible association with extrapulmonary TB and asymptomatic TB. However, despite belonging to the same lineage, L1 strains display phenotypic diversity that can be attributed to high within-lineage genetic diversity and possibly the interaction of different L1 genotypes with different human host genotypes. Among the clinical phenotypes that show heterogeneity are bacterial factors, immune profiles, and clinical virulence. The traditional view regarding the reduced transmissibility in L1 is now being challenged by new data indicating that L1 may be as transmissible as L2 or L4. Lastly, although historically referred to as being negatively associated with drug resistance, there is indication that the contribution of L1 to TB drug resistance is significant and that it may evolve drug resistance in ways distinct from those of other MTBC lineages.