In 1969 it was very difficult to explain the sudden unexpected appearance of some finely granulated large lymphoid cells that had been hidden in the human blood for over a full century, as they suddenly revealed themselves in our laboratory at M.D. Anderson Hospital, Houston TX. At first, the hematopathologists considered these cells to be of monocytoid (M) derivation; by accidental misprint, instead of monocytoid noted as "macrophagic" in the legends. These new cells appeared clearly distinct from the already well known compact T cells (Figure 1), as a different new population (Figure 2), since their cytoplasm displayed fine round unstained white granulation. These larger rounded up lymphoid cells were cytotoxic to tumor cells; compare with hundreds of detailed complex pictures produced in the following years. This chapter also showed the tetraploid fused cells that have become later the first "hybridomata", natural or artificially produced. The large granulated lymphoid cells we soon referred to as "Burnet's Immune Surveillance Cells" and held them identical by 1975 to the "Natural Killer Cells" of the Herberman's and Kleins'. Shown in the same original article, were indirect fluorescent antibody-stained preparations in search of "tumor antigens". This heavily overweight presentation forecasts the massive basic developments of tumor immunology to follow, in which malignant lymphoblasts fusing with immune plasma cells and forming hybridomata have become eventually the source of potentially curative monoclonal antibodies (Figure 3) (Sinkovics JG, Shirato E, Gyorkey F, Cabiness JR, Howe CD in "Leukemia-Lymphoma" at The University of Texas MD Anderson Hospital and Tumor Institute, Houston TX. Year Book Medical Publishers Pp 53-92 1970).
This Letter to the Editor is intended to be a continuation of the senior author's reminiscence recently published in the Journal [1]. That was the era of searching for the most effective immunotherapeutic modality offering itself for the potential cure of the advanced human cancer that continued to relapse against toxic, even carcinogenic combination chemo-radiotherapy regimens. Vaccinations with viral oncolysates, stimulation of dendritic cells and passive transfer of monoclonal antibodies continued to induce remissions that still ended in relapses. It has become resounding medical history that checkpoint control with ipilimumab (of James Allison), pembrolizumab (of Tasuku Honjo) and related monoclonal antibodies achieved the durable complete remissions that persisted without relapse up to half of the treated patients; partial remissions were substantially prolonged. Achieving cures regularly (not anymore only occasionally) in metastatic human cancers has now been accomplished. Independently emerged the "Burnet's Immune Surveillance Cells" or "Natural Killer Cells" that were discovered twice, first at the University of Texas MD Anderson Hospital in Houston TX in the late 1960s and at the Karolinska Institute in the mid-1970s (Rolf Kiessling, Eva Klein, et al.). This latter discovery was shared with a contemporaneous achievement of similar results at the National Cancer Institute, Bethesda MD by Ronald Herberman, et al. Thereafter, these latter two institutions (the Kleins, Petter Hoglund; Ronald Herberman, et al.) accepted each other as co-discoverers, and obligatorily cross-referenced each other. Unfortunately, all other references to NK cells, especially concerning that one made originally and much earlier at MD Anderson [2-4] were left out. Those earlier publications [2-4] were never disqualified in any debates or open criticism but were simply omitted of all citations in the literature, as if non-existent.
These larger lymphoid cells ("Burnet's Immune Surveillance Cells" in the Sinkovics' Lab; "Natural Killer Cells" in the Kleins' and Herberman's Lab) morphologically and evolutionally differed from the smaller compact immune T cells that were cultured previously world-wide from the 1950s on (Ronald Herberman Editor, National Cancer Institute Monograph 37, 1973; Marshall A. Lichtman [5]). Extensive literature showed murine and human cultures of these small compact T lymphocytes originally and prominently carried by Karl Erik and Ingegerd Hellstrom, et al. and Farkas Vanky and Eva Klein, et al. at the Karolinska Institute in Stockholm Sweden (thus they are extensively cited so [2-4]). Not these compact immune T cells, but morphologically and biochemically different much larger granular lymphocytes re-appearing again in 1975 and thereafter in murine and in human hosts were designated as "Natural Killer NK Cells" by Rolf Kiessling, Eva Klein, et al. at the Karolinska Institute, and Ronald Herberman, et al. at the National Cancer Institute, Bethesda Maryland, and comprehensively so cross-cited by these authors [6,7]. The Rolstad article expresses gratitude for Hoglund's editorial guidance (Sinkovics omitted) [6,7]. Originally, these large lymphoid cells, more than twice the size of the well known compact immune T cells, could show in Giemsa- or Wright-stained preparations their minuscule small cytoplasmic granulations in white, when remaining unstained (Figure 4). First, electron microscopy confirmed the presence of minuscule cytoplasmic granules in these large lymphoid cells, as they were released and thus rendered their attack upon their targeted tumor cells [2]. The cytoplasm of the NK cells in its diffuse pale bluish coloration, revealed the presence of minuscule white unstained granules in clumps both in extra- and intracellular existence (arrows in Figure 4). Figure 5 compares in color the morphology of the compact human immune T cells on one side, and that of the large NK cells on the other side of a large human tumor (sarcoma) cell, as this latter entity (the NK cell) releases its granules to react with the targeted tumor cell in order to lyse it. The event shown here occurred in one long term survivor male patient with metastatic liposarcoma in remission (LN at MDAH #90641), who was attended by the team of this senior author [3,4], as repeatedly shown in appreciation for its value [1,3]. Thereafter, the authors R Herberman, B Rolstad, P Hoglund and the Kleins extensively cited their own and each others references, while meticulously omitting any citations to prior publications of Sinkovics, et al. [6,7]. Thus, the original concept of "Burnet's Immune Surveillance Cells" was successfully erased from the literature; there remained the Natural Killer Cells, whose reign was shown to have originated not in the late 1960s in the Sinkovics' Lab but in the Herberman's and Kleins' Labs (however, some 5 years later) [7].
Two different unexpected new phenomena emerged in the Sinkovics Laboratory at the Department of Medicine MD Anderson Hospital in the late 1960s [1-4,8,9]. These involved mouse (murine) and human lymphocytes. In the diploid mouse lymphoma cells budding retrovirus particles appeared. These lymphoma cells "spontaneously" fused with immune plasma cells producers of immunoglobulins specifically reactive to the budding retrovirus particles, thus, these two cells fused spontaneously forming tetraploid cells. These tetraploid cells were recognized as the first natural hybridomas in existence. When artificially duplicated, they produced diagnostic and therapeutic monoclonal antibodies that won the Nobel Prize, without citing their predecessor, the first natural hybridoma of Sinkovics (vide supra). For that, Sinkovics received the Hațieganu University's award "Out-Nobel" in Cluj Napoca, Romania. The antibody-coated tetraploid fused cells were lysed by macrophages, thus forming the classical morphology of the "starry sky" phenomenon [3,4], imitating those appearing in Burkitt's lymphoma.
In human subjects, two types of lymphoid cells cytotoxic to malignantly transformed tumor cells emerged. First, the already well known immune T cells (the Hellstroms; F Vanky and Eva Klein, vide supra) appeared reacting to and killing malignantly transformed cells by apoptosis. Second, never seen before large diploid cells released a cloud of minuscule granules causing cytoplasmic lysis of their targeted malignantly transformed cells, and so attacked and killed tumor cells (Figure 5). Our team (H David Kay, Harikishan Thota, C Charles Shullenberger, Clifton D Howe, and Joseph Sinkovics immediately, and later Joseph C Horvath [3,4], referred to these newly appearing lymphoid cells as the representatives of the much awaited and highly expected "Burnet's Immune Surveillance Cells". Eiichi Shirato photographed scenes of immunofluorescence involving these cells interacting with one another as they produced granzyme-related cytolysins [3].
Investigational trials in cooperation with the University of South Florida associate professor and St. Joseph's Hospital's research laboratory leader Joseph C Horvath were confined to consenting single adult patients, whose lymphoid cells were subjected to in vitro trials without clinical involvement of the patient [10-12].
Credit received from Lara Marks on the What Is Biotechnology? internet platform (https://www.whatisbiotechnology.org/index.php/people/summary/Sinkovics), then from Wainwright for the first original discovery of natural hybridoma formation [13], that in theory (and practice) we expand from the murine to the human host [14].
MD Anderson's clinical professor of hematology Charles C Shullenberger in good will upon the recognition of retroviral etiology for murine leukemias directed some of those first articles to the realm of experimental basic sciences away from that of the clinical human hematology literature. Thus, murine leukemias were viewed (and still are) of a unique etiology and immunobiology of their own [15].
The retiring professor Marshall A Lichtman wrote: "In 1969 Joseph (Jozsef) Geza Sinkovics (b. 1924), a physician-scientist and Hungarian emigre, working in the section of Clinical Tumor Virology and Immunology at the MD Anderson Cancer Center, observed that his unprimed lymphocytes killed allogeneic tumor cells in vitro. He reported his findings shortly thereafter. He also showed that the cells involved in attaching to and lysing tumor cells were large granular lymphocytes. Although his report was met with skepticism and rejection (a project site visitor proclaimed "There is no immune reaction without preimmunization"), this work was confirmed and expanded to indicate that the unprimed lymphocytes also could kill virus-infected cells. In his monograph, Sinkovics reviewed the reaction of the scientific community to his finding that tumor reactive lymphoid cells might be present without preimmunization of their host. He provided the first photomicrographs and tumor cell growth inhibitory graphs describing such cells. At about the same time (1970), Sinkovics described a lymphoproliferative disease, which in retrospect may have had a natural killer cell phenotype" [5,16].