Ricerc@Sapienza

BM635 is the hit compound of a promising anti-TB compound class. Herein we report systematic variations
around the central pyrrole core of BM635 and we describe the design, synthesis, biological
evaluation, pharmacokinetic analysis, as well as in vivo TB mouse efficacy studies of novel BM635 analogues
that show improved physicochemical properties. This hit-to-lead campaign led to the identification
of a new analogue, 4-((1-isopropyl-5-(4-isopropylphenyl)-2-methyl-1H-pyrrol-3-yl)methyl)

In this study, a series of 49 five-membered heterocyclic compounds containing either a pyridine- or a pyrrole-type nitrogen were synthesized and tested against Mycobacterium tuberculosis. Among them, only the 1,3,5-trisubstituted pyrazoles 5−49 exhibited minimum inhibitory concentration values in the low micromolar range, and some also exhibited an improved physicochemical profile without cytotoxic effects.

The biosynthetic pathways of amino acids are attractive targets for drug development against pathogens with an intracellular behavior like M. tuberculosis (Mtb). Indeed, while in the macrophages Mtb has restricted access to amino acids such as tryptophan (Trp). Auxotrophic Mtb strains, with mutations in the Trp biosynthetic pathway, showed reduced intracellular survival in cultured human and murine macrophages and failed to cause the disease in immunocompetent and immunocompromised mice. Herein we present recent efforts in the discovery of Trp biosynthesis inhibitors.

INTRODUCTION:
Monoamine oxidase (MAO) inhibitors, after the initial 'golden age', are currently used as third-line antidepressants (selective MAO-A inhibitors) or clinically enrolled as co-adjuvants for neurodegenerative diseases (selective MAO-B inhibitors). However, the research within this field is always increasing due to their pivotal role in modulating synaptic functions and monoamines metabolism.
AREAS COVERED:

Breakthroughs in Medicinal Chemistry: New Targets and Mechanisms, New Drugs, New Hopes is a series of Editorials, which is published on a biannual basis by the Editorial Board of the Medicinal Chemistry section of the journal Molecules. [...].

Since the histone modifying enzymes EZH2 and HDACs control a number of epigenetic-dependent carcinogenic pathways, we designed the first-in-class dual EZH2/HDAC inhibitor 5 displaying (sub)micromolar inhibition against both targets. When tested in several cancer cell lines, the hybrid 5 impaired cell viability at low micromolar level and in leukemia U937 and rhabdomyosarcoma RH4 cells provided G1 arrest, apoptotic induction, and increased differentiation, associated with an increase of acetyl-H3 and acetyl-α-tubulin and a decrease of H3K27me3 levels.

Introduction: Hedgehog (Hh) signaling plays a pivotal role in tissue development and stemness, and its deregulation is found in many different tumors. Several efforts have been devoted to discovery of Hh inhibitors, including three drugs approved by the Food and Drug Administration (FDA), targeting the upstream receptor smoothened (SMO). However, SMO mutations or SMO-independent Hh pathway activation raise the need for novel Hh inhibitors. Areas covered: This review describes Hh inhibitors with anticancer potential patented in the period 2015–present.

It is nowadays widely accepted that some tumors have a niche of cells endowed with stemness features, which may cause resistance to conventional anticancer therapies and relapse/recurrence of the malignancy. These cells are usually referred to as cancer stem cells (CSCs) and, different from normal cancer cells, are rather quiescent. Targeting CSCs is thus a highly challenging but promising strategy to counteract tumor growth, and to develop innovative anticancer agents.