The NF1 locus on the long arm of chromosome 17 is a very special gene in the human genome. In terms of multiplicity, there are five pseudogenes on five other chromosomes; it influences the formation and/or behavior of many tissues; it is probably the locus with highest germinal mutation rate in humans (1 in 10,000), with a disease frequency of 1/2,500-1/3,000. There are several other multiplicities that persist in confounding our understanding of this very common autosomal dominant disorder. This editorial focuses on three considerations: 1) How many types of Neurofibromatosis (NF) are there? 2) How many types of NF1 neurofibromas are there? 3) What are the logical/causative relationships of the numerous pathogenetic and clinical elements of the full-blown syndrome or portions of it?
TYPES OF NEUROFIBROMATOSIS (NF)
In 19821 and for the first two editions of my NF book.2,3 I identified seven to eight relatively distinctive types of NF. Based on careful literature reviews, the most common and most consistent phenotype was labeled as NF1. The next most consistent and somewhat common phenotype, with bilateral vestibular schwannomas as the hallmark, was labeled NF2. The remainder of NF “types” were characterized as to the presence and/or distribution of neurofibromas, time of onset, idiosyncratic elements, and such. They were sequentially labeled NF3 through NF7 and NF-NOS (Not Otherwise Specified). Schwannomatosis, as a distinct entity was not considered in the earliest characterizations. In 1987, an NIH Consensus Conference adopted the NF1 and NF2 terminology as alternatives to “Von Recklinghausen disease (VRD)” and “Bilateral Vestibular Schwannomas,” respectively.4 The respective gene loci have long been established on 17q11.2 and 22q12.2.5,6
The point is that the numerical basis for NF classification and nomenclature reflects was pre-genomic clinical heterogeneity, most useful in characterizing subtypes of what was originally called Von Recklinghausen Disease. The only exceptions were the two non-neurofibroma disorders: NF2 is a totally distinct schwannoma-generating disorder, as is Schwannomatosis; and NF5 identified what we now know as the Legius syndrome. An important general point here is that a body-wide distribution of multiple neurofibromas is virtually always a type of VRD or NF1. In addition, an intragenic mutation or a whole gene deletion (WGD) involving the NF1 locus consistently manifests as some iteration of the VRD phenotype.7,8
In other words, etiologically, there appears to be only one disorder that accurately warrants the diagnosis sensu strictu (phenotype attribution) of Neurofibromatosis or NF. For the time being, it would reserve the diagnostic or phenotypic label of Neurofibromatosis 1 or NF1 for an intragenic mutation or WGD involving the NF1 locus at 17q11.2.
TYPES OF NEUROFIBROMAS
AThe key to VRD or NF1 is the neurofibroma. And there is more than one type of neurofibroma, although sadly there is not yet consensus for their logical classification or names. Respecting that all neurofibromas are accurately and consistently considered to be Peripheral Nerve Sheath Tumors (PNSTs), in 2007.9 It was proposed that there are three basic types of neurofibromas consistent with all prior classifications and routine histopathological designations: Endoneurial, Epineurial and Perineurial. Their similarities and differences are emphasized in Table 1. Key elements for the Plexiform nf (Pnf) are 1) the absence/presence of a Central Nervous System (CNS) connection, likely associated with the neurofibrosarcoma risk; and 2) recognition of two types of Pnf. It has elaborated on these similarities and differences on multiple occasions.10,11
Table 1. NF1 Neurofibroma Types |
Endoneurial (Pierre Masson “Diffuse;”12 No CNS Connection) |
Endoneurium Only |
No Intact Perineurium |
No Intact Epineurium |
Cnf; NMJnf; CRUSHnf |
Epineurial (Pierre Masson “Diffuse;” + CNS Connection) |
Endoneurium Present |
No Intact Perineurium |
Initial Intact Epineurium |
Diffuse Pnf |
Perineurial (Pierre Masson “Encapsulated;”12 + CNS Connection) |
Endoneurium Present |
Intact Perineurium |
Intact Epineurium |
Subcutaneous nf; Nodular Pnf |
NF1 PATHOGENETIC AND CLINICAL ELEMENTS
VRD or NF1 is characterized, if not defined by neurofibromas, but universally there are multiple additional pathophysiological and clinical elements that are not respected as to how immediate is the genetic change (mutant genotype) to the clinical consequence (mutant phenotype): they are all simply (and often erroneously) referred to as “features” or “complications” of the disorder. This over-simplification severely retards understanding the disorder’s pathogenesis. HOW the mutant genotype is literally put into practice to account for the phenotype – that is, the mutant genotype’s Praxitype – is the key to understanding NF1’s pathogenesis, especially as regards treatment approaches.10,13,14 For example, the NF1 element usually referred to as Vertebral Dysplasia is a (primary level) feature of the disorder, while the oft-resulting Dystrophic Scoliosis is one (secondary level) consequence of the feature. In turn, a resulting Spinal Cord Compression may be a (tertiary level) complication of the consequence. Distinguishing the multiple types of pathogenetic elements of NF1 is key to understanding and treating this complex, complicated disorder. As with realizing whether there are multiple types of NF1 and distinguishing the multiple types of NF1 neurofibromas, realizing that there are multiple levels, multiple types of pathogenetic and clinical elements is one of the keys to understanding and, eventually, effectively treating this challenging genetic disease.