This preprint presents an L4-level interpretative hypothesis developed within the framework of the Theory of the Informational Universe (TIU), addressing recent observations of compact, extremely luminous high-redshift sources (Little Red Dots) detected by the James Webb Space Telescope (JWST). The work proposes that the observed early appearance and properties of these objects may be consistently interpreted as a consequence of a hierarchical transition in the underlying descriptive framework. In this approach, the emergence of the observable Universe, physical time, and vacuum is treated as an effective platform-level regime (ISP, platform informational system) arising when a formal IS-1 model reaches critical structural constraints and enters a phase-degeneracy regime. Within this interpretation, JWST Little Red Dots are described as residual localized structures that preserve non-degenerate phase regimes against a surrounding phase-degenerate background, rather than as products of smooth evolutionary growth. The paper outlines qualitative, observationally testable consequences of this framework and emphasizes its compatibility with standard cosmological models as a pre-hierarchical extension rather than an alternative. The hypothesis is explicitly falsifiable and subject to refinement based on extended JWST datasets and future observations. This work does not aim to derive fundamental physical laws, but instead offers a hierarchically consistent interpretative framework for early-Universe observations.